Production Proven, Complex Semiconductor IP Cores

Semiconductor IP Cores


Optimized SAR ADCs, Sigma-Delta ADCs, DACs, and Audio CODECs for IoT, MCU, SoC, and Consumer Applications

07 May, 2025

T2M IP, a global leader in independent semiconductor IP business development, proudly announces the launch of their partner’s latest portfolio of high-performance, low-power Analog and Mixed-Signal IP cores, engineered for next-generation energy-efficient electronic systems.

The newly released IP cores address the growing need for precision analog interfacing and audio processing in power-sensitive environments, including IoT devices, microcontrollers (MCUs), wireless systems, SoCs, and consumer electronics.
 

 IP Portfolio Highlights:

SAR ADCs (Successive Approximation Register ADCs):
  • 16-bit high-performance SAR ADCs for demanding applications
  • 14-bit SAR ADCs optimized for precision sensing
  • 10-bit and 12-bit ultra-low-power SAR ADCs
Sigma-Delta ADCs:
  • High-speed 8-bit to 12-bit Sigma-Delta ADCs for low-noise environments
DACs (Digital-to-Analog Converters):
  • 12-bit R2R DACs for compact designs
  • 10-bit to 14-bit high-speed DACs for high-resolution analog output
Audio CODECs:
  • 24-bit high-fidelity Audio CODECs for premium sound processing
  • 16-bit Voice CODECs tailored for voice-centric IoT and wearable applications
Technology Advantages:

Built using state-of-the-art low-power design techniques, these IP cores offer:
  • Exceptional analog performance with minimal power draw
  • Optional on-chip, low temperature-drift reference sources for SAR ADCs
  • Scalable resolution and bandwidth options to suit a wide range of application needs
Applications & Market Focus:
  • Smart IoT edge devices
  • Ultra-low-power MCUs
  • Wireless communication SoCs
  • Audio-enabled consumer gadgets and wearables
 About T2M IP:

T2M IP is committed to delivering innovative, silicon-proven semiconductor IP Cores that help customers accelerate time-to-market and stay ahead in competitive, energy-conscious product segments.