CC3130

• Integrated Wi-Fi and internet protocols
• Coexistence with BLE radios (CC13x2/CC26x2)
• Rich set of IoT security features helps developers protect data
• Low-power modes for battery powered application
• Network-assisted roaming
• Industrial temperature: –40°C to +85°C
• Transferable Wi-Fi Alliance certification
• Wi-Fi network processor subsystem:
  • Wi-Fi core:
    • 802.11b/g/n 2.4 GHz
    • Modes:
      • Access point (AP)
      • Station (STA)
      • Wi-Fi Direct
    • Security:
      • WEP
      • WPA™/ WPA2™ PSK
      • WPA2 Enterprise
      • WPA3™ Personal
  • Internet and application protocols:
    • HTTPs server, mDNS, DNS-SD, DHCP
    • IPv4 and IPv6 TCP/IP stack
    • 16 BSD sockets (fully secured TLS v1.2 and SSL 3.0)
  • Built-in power management subsystem:
    • Configurable low-power profiles (always, intermittent, tag)
    • Advanced low-power modes
    • Integrated DC/DC regulators
• Multilayered security features:
  • Separate execution environments
  • Networking security
  • Device identity and key
  • Hardware accelerator cryptographic engines (AES, DES, SHA/MD5, CRC)
  • File-system security (encryption, authentication, access control)
  • Initial secure programming
  • Software tamper detection
  • Certificate signing request (CSR)
  • Unique per device key pair
• Application throughput:
  • UDP: 16 Mbps, TCP: 13 Mbps
  • Peak: 72 Mbps
• Power-Management Subsystem:
  • Integrated DC/DC converters support a wide range of supply voltage:
    • VBAT wide-voltage mode: 2.1 V to 3.6 V
    • VIO is always tied with VBAT
  • Advanced low-power modes:
    • Shutdown: 1 µA, hibernate: 4 µA
    • Low-power deep sleep (LPDS): 120 µA
    • Idle connected (MCU in LPDS): 710 µA
    • RX traffic (MCU active): 53 mA
    • TX traffic (MCU active): 223 mA
• Wi-Fi TX power:
  • 18.0 dBm at 1 DSSS
  • 14.5 dBm at 54 OFDM
• Wi-Fi RX sensitivity:
  • –96 dBm at 1 DSSS
  • –74.5 dBm at 54 OFDM
• Clock source:
  • 40.0-MHz crystal with internal oscillator
  • 32.768-kHz crystal or external RTC
• RGK package
  • 64-pin, 9-mm × 9-mm very thin quad flat nonleaded (VQFN) package, 0.5-mm pitch
• Device supports SimpleLink™ MCU Platform developer’s ecosystem

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Connect any microcontroller (MCU) to the Internet of Things (IoT) with the CC3130 device from Texas Instruments. The SimpleLink™ Wi-Fi CC3130 Internet-on-a chip™ device contains an Arm Cortex-M3 MCU dedicated to Wi-Fi^® and internet protocols, in order to offload networking activities from the host MCU. The subsystem includes an 802.11b/g/n radio, baseband, and MAC with a powerful crypto engine for fast, secure Internet connections with 256-bit encryption and a built in power management for best in class low power performance.

The Wi-Fi CERTIFIED^® CC3130 device dramatically simplifies the implementation of low-power, with the integrated Wi-Fi Alliance^® IoT low power feature.

This generation introduces new capabilities that further simplify the connectivity of things to the internet. The main new features include:

• Bluetooth Low Energy and Wi-Fi 2.4-GHz radio coexistence (CC13x2/CC26x2)
• Antenna selection
• Up to 16 concurrent secure sockets
• Certificate sign request (CSR)
• Online certificate status protocol (OCSP)
• Wi-Fi Alliance certified IoT power-saving features (such as BSS max idle, DMS, and proxy ARP)
• Hostless mode for offloading template packet transmissions
• Network-assisted roaming

The CC3130 device is delivered with a slim and user-friendly host driver to simplify the integration and development of networking applications. The host driver can easily be ported to most platforms and operating systems (OS). The driver has a small memory footprint and can run on 8-bit, 16-bit, or 32-bit microcontrollers with any clock speed (no performance or real-time dependency).

The CC3130 device is part of the SimpleLink™ MCU platform, a common, easy-to-use development environment based on a single core software development kit (SDK), rich tool set, reference designs and E2E™ community which supports Wi-Fi^®, Bluetooth^® low energy, Sub-1 GHz and host MCUs. For more information, visit www.ti.com/simplelink .