SWRS353
April 2025
CC3350MOD
,
CC3351MOD
ADVANCE INFORMATION
1
1
Features
2
Applications
3
Description
4
Functional Block Diagrams
5
Pin Configuration and Functions
5.1
Pin Diagram
5.2
Pin Descriptions
6
Specifications
6.1
Absolute Maximum Ratings
6.2
ESD Ratings
6.3
Recommended Operating Conditions
6.4
Electrical Characteristics
6.5
WLAN Performance: 2.4GHz Receiver Characteristics
6.6
WLAN Performance: 2.4GHz Transmitter Power
6.7
WLAN Performance: 5GHz Receiver Characteristics
6.8
WLAN Performance: 5GHz Transmitter Power
6.9
BLE Performance: Receiver Characteristics
6.10
BLE Performance: Transmitter Characteristics
6.11
Current Consumption: 2.4GHz WLAN Static Modes
6.12
Current Consumption: 5GHz WLAN Static Modes
6.13
Current Consumption: 2.4GHz WLAN Use Cases
6.14
Current Consumption: 5GHz WLAN Use Cases
6.15
Current Consumption: BLE Static Modes
6.16
Current Consumption: BLE Use Cases
6.17
Current Consumption: Device Modes
6.18
Timing and Switching Characteristics
6.18.1
Power Supply Sequencing
6.18.2
Clocking Specifications
6.18.2.1
Slow Clock Generated Internally
6.18.2.2
Slow Clock Using an External Oscillator
6.19
Interface Timing Characteristics
6.19.1
SDIO Timing Specifications
6.19.1.1
SDIO Timing Diagram: Default Speed
6.19.1.2
SDIO Timing Diagram: High Speed
6.19.2
SPI Timing Specifications
6.19.2.1
SPI Timing Diagram
6.19.2.2
SPI Timing Parameters
6.19.3
UART 4-Wire Interface
6.19.3.1
UART Timing Parameters
7
Device Certification
7.1
FCC Certification and Statement
7.2
IC/ISED Certification and Statement
7.3
ETSI/CE
7.4
MIC Certification
7.5
Manual Information to the End User
7.6
Module Markings
7.6.1
Test Grades
8
Application Information
8.1
Typical Application—CC335xMOD Reference Design
8.2
Design Recommendations
8.2.1
General Layout Recommendations
8.2.2
CC335xMOD RF Layout Recommendations
8.2.3
Thermal Board Recommendations
9
Device and Documentation Support
9.1
Third-Party Products Disclaimer
9.2
Device Nomenclature Boilerplate
9.3
Tools and Software
9.4
Documentation Support
9.5
Support Resources
9.6
Trademarks
9.7
Electrostatic Discharge Caution
9.8
Glossary
10
Revision History
11
Mechanical, Packaging, and Orderable Information
Package Options
Mechanical Data (Package|Pins)
MOZ|65
Thermal pad, mechanical data (Package|Pins)
Orderable Information
swrs353_oa
1
Features
Key Features
Wi-Fi 6 (802.11ax)
Bluetooth®
Low Energy 5.4 in CC33x1MOD
Companion module to any processor or MCU host capable of running a TCP/IP stack
Integrated 2.4GHz
and 5GHz
PA for a complete wireless system with up to +18dBm output power
Operating temperature: –40°C to +85°C
Application throughput up to 50Mbps
Regulatory Certification
(in progress)
FCC
IC/ISED
ETSI/CE
MIC (TELEC)
QuickTrack Qualified
Bluetooth Controller Subsystem Qualified
Extended Features
Wi-Fi 6
2.4GHz
and 5GHz,
20MHz, single spatial stream
MAC, baseband, and RF transceiver with support for IEEE 802.11
a/
b/g/n/ax
Target wake time (TWT), OFDMA, MU-MIMO (downlink), Basic Service Set Coloring, and trigger frame for improved efficiency
Hardware-based encryption and decryption supporting WPA2 and WPA3
Excellent interoperability
Support for 4-bit SDIO or SPI host interfaces
Bluetooth Low Energy 5.4
LE Coded PHYs (long range), LE 2M PHY (high speed), and Advertising Extension
Host controller interface (HCI) transport with an option for UART or shared SDIO
Internal coexistence mechanism with Wi-Fi to share the same antenna
Enhanced Security
Secured host interface
Firmware authentication
Anti-rollback protection
Multirole support (for example, concurrent STA and AP) to connect with Wi-Fi devices on different RF channels (Wi-Fi networks)
Optional antenna diversity or selection
3-wire or 1-wire PTA for external coexistence with additional 2.4GHz radios (for example, Thread or Zigbee)
Clock sources
40MHz XTAL fast clock (Integrated into the module)
Internal slow clock or external 32.768kHz slow clock
Small package size
Easy to design with 65-pin, 11mm × 11mm LGA package, 0.65mm pitch