LM3S6110 Datasheet, PDF(41/610 Page) Texas Instruments – Stellaris® LM3S6110 Microcontroller

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LM3S6110 Datasheet, PDF (41/610 Pages) Texas Instruments – Stellaris® LM3S6110 Microcontroller

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StellarisÂ® LM3S6110 Microcontroller

1.4.4.3

1.4.5

1.4.5.1

1.4.5.2

1.4.5.3

The SSI module also includes a programmable bit rate clock divider and prescaler to generate the

output serial clock derived from the SSI module's input clock. Bit rates are generated based on the

input clock and the maximum bit rate is determined by the connected peripheral.

Ethernet Controller (see page 438)

Ethernet is a frame-based computer networking technology for local area networks (LANs). Ethernet

has been standardized as IEEE 802.3. It defines a number of wiring and signaling standards for the

physical layer, two means of network access at the Media Access Control (MAC)/Data Link Layer,

and a common addressing format.

The StellarisÂ® Ethernet Controller consists of a fully integrated media access controller (MAC) and

network physical (PHY) interface device. The Ethernet Controller conforms to IEEE 802.3

specifications and fully supports 10BASE-T and 100BASE-TX standards. In addition, the Ethernet

Controller supports automatic MDI/MDI-X cross-over correction.

System Peripherals

Programmable GPIOs (see page 252)

General-purpose input/output (GPIO) pins offer flexibility for a variety of connections.

The Stellaris GPIO module is comprised of seven physical GPIO blocks, each corresponding to an

individual GPIO port. The GPIO module is FiRM-compliant (compliant to the ARM Foundation IP

for Real-Time Microcontrollers specification) and supports 8-35 programmable input/output pins.

The number of GPIOs available depends on the peripherals being used (see âSignal

Tablesâ on page 538 for the signals available to each GPIO pin).

The GPIO module features programmable interrupt generation as either edge-triggered or

level-sensitive on all pins, programmable control for GPIO pad configuration, and bit masking in

both read and write operations through address lines. Pins configured as digital inputs are

Schmitt-triggered.

Three Programmable Timers (see page 298)

Programmable timers can be used to count or time external events that drive the Timer input pins.

The Stellaris General-Purpose Timer Module (GPTM) contains three GPTM blocks. Each GPTM

block provides two 16-bit timers/counters that can be configured to operate independently as timers

or event counters, or configured to operate as one 32-bit timer or one 32-bit Real-Time Clock (RTC).

When configured in 32-bit mode, a timer can run as a Real-Time Clock (RTC), one-shot timer or

periodic timer. When in 16-bit mode, a timer can run as a one-shot timer or periodic timer, and can

extend its precision by using an 8-bit prescaler. A 16-bit timer can also be configured for event

capture or Pulse Width Modulation (PWM) generation.

Watchdog Timer (see page 334)

A watchdog timer can generate an interrupt or a reset when a time-out value is reached. The

watchdog timer is used to regain control when a system has failed due to a software error or to the

failure of an external device to respond in the expected way.

The Stellaris Watchdog Timer module consists of a 32-bit down counter, a programmable load

register, interrupt generation logic, and a locking register.

The Watchdog Timer can be configured to generate an interrupt to the controller on its first time-out,

and to generate a reset signal on its second time-out. Once the Watchdog Timer has been configured,

the lock register can be written to prevent the timer configuration from being inadvertently altered.

June 18, 2012

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Texas Instruments-Production Data

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