Sipeed TANG PriMER FPGA Dev. Board
Sipeed TANG PriMER FPGA Dev. Board
Sipeed TANG PriMER FPGA Dev. Board
The Sipeed TANG PriMER is a compact FPGA development board featuring the Gowin GW1N-1 FPGA chip, designed for rapid prototyping and embedded systems development. Professional engineers, embedded systems designers, and hardware developers use this board to implement custom digital logic, signal processing algorithms, and real-time control systems. It solves the challenge of accessible FPGA development by combining affordability with sufficient logic resources for educational and industrial IoT applications.
Product Overview
The TANG PriMER FPGA Dev. Board integrates the Gowin GW1N-1 FPGA with 1024 LUTs (Look-Up Tables), 432 distributed RAM bits, and 8 block RAMs, providing sufficient computational resources for moderate complexity digital designs. The board operates on a 27MHz crystal oscillator and includes USB Type-C connectivity for programming and UART communication, eliminating the need for external programmers. The Gowin architecture uses advanced 22nm process technology, delivering low power consumption ideal for battery-powered IoT devices and edge computing applications.
What distinguishes the TANG PriMER is its open-source design approach and compatibility with the open-source Project Trellis EDA toolchain, enabling developers to bypass proprietary software licensing costs. The board features 20 general-purpose GPIO pins, 6 dedicated analog input channels through an on-board ADC, and support for SPI, I2C, and UART protocols natively. Its compact form factor (approximately 6cm x 4cm) makes it ideal for embedded applications where space constraints are critical, while the integrated debugging capabilities through the USB interface streamline the development workflow.
Key Specifications
| Specification | Details |
| Product Type | FPGA Development Board |
| Brand | Sipeed |
| FPGA Chip | Gowin GW1N-1 |
| Logic Cells | 1024 LUTs |
| Block RAM | 8 x 18Kb blocks (144Kb total) |
| Distributed RAM | 432 bits |
| Clock Frequency | 27MHz onboard oscillator |
| GPIO Pins | 20 general-purpose I/O pins |
| Analog Channels | 6 ADC input channels |
| Communication Interfaces | USB Type-C, SPI, I2C, UART |
| Power Supply | USB 5V or external 3.3V |
| Process Technology | 22nm CMOS |
| Origin | Original/Authentic |
| Warranty | 7 days on manufacturing defects |
| Shipping | 1-5 days from Bengaluru |
| Delivery | 7-8 days across India |
| Support | 24/7 via Email and WhatsApp |
Key Features
- Gowin GW1N-1 FPGA with 1024 LUTs for implementing complex digital logic and signal processing pipelines with minimal resource overhead
- Open-source toolchain compatibility with Project Trellis and nextpnr, eliminating proprietary software licensing and enabling full design transparency
- Integrated USB Type-C interface for direct programming and UART debugging without requiring external JTAG programmers or additional hardware
- 6 analog input channels with built-in ADC for real-time sensor interfacing and mixed-signal applications without external ADC modules
- Low power 22nm process technology consuming minimal current, ideal for battery-powered IoT and edge computing deployments
- Compact form factor measuring 6cm x 4cm, enabling integration into space-constrained embedded systems and wearable applications
- Native support for SPI, I2C, and UART protocols through GPIO configuration for seamless peripheral communication
- 20 configurable GPIO pins providing flexible I/O mapping for custom hardware interfaces and sensor integration
Applications and Use Cases
- Educational FPGA learning and digital design courses where students implement state machines, arithmetic circuits, and signal processing algorithms with hands-on hardware validation
- IoT edge computing and sensor data acquisition systems requiring custom hardware acceleration for real-time signal filtering and feature extraction before cloud transmission
- Real-time control systems for robotics, industrial automation, and drone applications where deterministic timing and parallel processing capabilities outperform microcontroller solutions
- Digital signal processing prototyping for audio processing, image filtering, and communication systems requiring high-throughput parallel computation at low latency
- Custom hardware accelerators for machine learning inference on embedded devices, implementing neural network layers in reconfigurable logic
- Protocol development and testing for custom communication interfaces, SPI variants, and proprietary serial protocols requiring bit-level timing control
How to Use
Begin by installing the open-source toolchain stack: Project Trellis for place-and-route, nextpnr for synthesis, and Yosys for Verilog compilation. Connect the TANG PriMER to your development computer via USB Type-C cable, which provides both power and programming interface. Write your HDL code in Verilog or VHDL, then compile it using the open-source tools to generate a bitstream file. Program the FPGA by uploading the bitstream through the USB interface using command-line tools like openFPGALoader or the Sipeed provided GUI programmer.
For debugging and testing, utilize the 20 GPIO pins to connect external components like LEDs, buttons, and sensors. The integrated UART interface accessible through USB allows real-time console communication for monitoring internal FPGA state and receiving sensor data. The 6 analog input channels can be configured through GPIO to read analog sensors directly without external ADC modules. Start with example projects available in the Sipeed GitHub repositories to understand the board's capabilities, then gradually increase complexity by implementing your custom digital designs and gradually expanding to multi-module projects using the board's 144Kb block RAM for data buffering.
Frequently Asked Questions
What is the difference between the TANG PriMER and other Gowin FPGA boards?
The TANG PriMER is optimized for educational and IoT applications with integrated ADC channels and USB programming, making it more accessible than industrial variants. It features the GW1N-1 chip with 1024 LUTs, sufficient for moderate complexity designs. Larger variants like TANG Nano 9K offer more logic cells but at higher cost. The PriMER's open-source toolchain compatibility distinguishes it from boards locked into proprietary Gowin EDA software.
Can I use this board with proprietary FPGA design tools like Vivado or Quartus?
No, the Gowin GW1N-1 FPGA requires Gowin EDA or open-source tools like Project Trellis and nextpnr. Xilinx Vivado and Intel Quartus are incompatible as they target different FPGA architectures. The advantage is that open-source tools are free and provide full design transparency, eliminating licensing costs for commercial development.
How much power does the TANG PriMER consume during operation?
The board consumes approximately 100-300mA at 3.3V during typical operation, depending on logic utilization and clock frequency. The 22nm process technology enables efficient power scaling. USB 5V supply provides sufficient power for most designs, but high-performance applications may require external 3.3V regulation for stable operation under peak current draw.
Is the TANG PriMER suitable for beginners in FPGA development?
Yes, the TANG PriMER is excellent for beginners due to its affordability, compact size, and open-source toolchain. However, FPGA development requires understanding of digital logic design and HDL programming. We recommend starting with Verilog tutorials and example projects from the Sipeed community before attempting complex designs. Our technical support team can guide you through the learning process.
What programming languages does the TANG PriMER support?
The board supports Verilog and VHDL hardware description languages through the open-source toolchain. High-level synthesis tools like HLS can also target this board, allowing C/C++ code compilation to hardware. The choice depends on your design complexity and team expertise with specific HDL languages.
Can I use multiple TANG PriMER boards together for larger projects?
Yes, multiple boards can be interconnected through GPIO pins and UART interfaces to create larger systems. This approach is common in distributed IoT applications where each board handles specific processing tasks. Synchronization between boards requires careful timing design to maintain deterministic behavior across the network.
When will I receive my order?
Orders are dispatched within 1-5 business days from our Bengaluru warehouse. Delivery takes 7-8 days to most locations across India.
What is your return and warranty policy?
We offer a 7-day return policy on manufacturing defects only. Contact support within 7 days of receipt for free replacement or full refund. Not applicable for user damage or misuse.
Are bulk discounts available?
Yes, wholesale pricing for orders of 10 or more units. Contact our sales team via WhatsApp or email for a customized bulk quote.
Why Buy from The Tech Depot
- Genuine Products: Sourced directly from authorized distributors with authentication
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- Fast Shipping: Dispatched within 1-5 days from our Bengaluru warehouse
- Pan-India Delivery: 7-8 days to Mumbai, Delhi, Chennai, Hyderabad, Pune, Kolkata
- Payment Options: COD, UPI, credit/debit cards, net banking, EMI available
- Technical Support: 24/7 expert guidance via email and WhatsApp
- Returns: 7-day return policy on manufacturing defects only
Buy Sipeed TANG PriMER FPGA Dev. Board Online in India
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