CC3100MOD_15 Datasheet, PDF(24/41 Page) Texas Instruments – CC3100MOD SimpleLink™ Certified Wi-Fi® Network Processor Internet-of-Things Module Solution for MCU Applications

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CC3100MOD_15 Datasheet, PDF (24/41 Pages) Texas Instruments – CC3100MOD SimpleLink™ Certified Wi-Fi® Network Processor Internet-of-Things Module Solution for MCU Applications

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CC3100MOD

SWRS161 â DECEMBER 2014

www.ti.com

ITEM

Table 5-1. Summary of Features Supported by the NWP Subsystem (continued)

DOMAIN

WLAN

CATEGORY

Performance

Provisioning

Role

Security

FEATURE

Throughput

WPS2

AP Config

SmartConfig

Station

Soft AP

P2P

STA-Personal

STA-Enterprise

AP-Personal

DETAILS

UDP = 16 Mbps

TCP = 13 Mbps

Enrollee using push button or PIN method.

AP mode for initial product configuration (with

configurable Web page and beacon Info element)

Alternate method for initial product configuration

802.11bgn Station with legacy 802.11 power save

802.11 bg single station with legacy 802.11 power

save

P2P operation as GO

P2P operation as CLIENT

WPA2 personal security

WPA2 enterprise security

EAP-TLS

EAP-PEAPv0/TLS

EAP-PEAPv1/TLS

EAP-PEAPv0/MSCHAPv2

EAP-PEAPv1/MSCHAPv2

EAP-TTLS/EAP-TLS

EAP-TTLS/MSCHAPv2

WPA2 personal security

5.4 Power-Management Subsystem

The CC3100 power-management subsystem contains DC-DC converters to accommodate the differing

voltage or current requirements of the system. The module can operate from an input voltage ranging from

2.3 V to 3.6 V and can be directly connected to 2xAA Alkaline batteries.

The CC3100MOD is a fully integrated module based WLAN radio solution used on an embedded system

with a wide-voltage supply range. The internal power management, including DC-DC converters and

LDOs, generates all of the voltages required for the module to operate from a wide variety of input

sources. For maximum flexibility, the module can operate in the modes described in the following sections.

5.4.1 VBAT Wide-Voltage Connection

In the wide-voltage battery connection, the module is powered directly by the battery. All other voltages

required to operate the device are generated internally by the DC-DC converters. This scheme is the most

common mode for the device as it supports wide-voltage operation from 2.3 to 3.6 V.

5.5 Low-Power Operating Modes

This section describes the low-power modes supported by the module to optimize battery life.

5.5.1 Low-Power Deep Sleep

The low-power deep-sleep (LPDS) mode is an energy-efficient and transparent sleep mode that is entered

automatically during periods of inactivity based on internal power optimization algorithms. The module

draws about 7 ÂµA from the supply in this low-power mode. The module can wake up in less than 3 ms

from the internal timer or from any incoming host command. Typical battery drain in this mode is 140 ÂµA.

During LPDS mode, the module retains the software state and certain configuration information. The

operation is transparent to the external host; thus, no additional handshake is required to enter or exit this

sleep mode.

Detailed Description

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