SAK-TC1736-128F80HL AA Infineon Technologies, SAK-TC1736-128F80HL AA Datasheet - Page 23

SAK-TC1736-128F80HL AA

Manufacturer Part Number

SAK-TC1736-128F80HL AA

Description

IC MCU 32BIT 1MB FLASH 144LQFP

Manufacturer

Infineon Technologies

Series

TC17xxr

Datasheet

1.SAK-TC1736-128F80HL_AA.pdf (123 pages)

Specifications of SAK-TC1736-128F80HL AA

Core Processor

TriCore

Core Size

32-Bit

Speed

80MHz

Connectivity

ASC, CAN, MLI, MSC, SSC

Peripherals

DMA, POR, WDT

Number Of I /o

Program Memory Size

1MB (1M x 8)

Program Memory Type

FLASH

Ram Size

48K x 8

Voltage - Supply (vcc/vdd)

1.42 V ~ 1.58 V

Data Converters

A/D 24x12b

Oscillator Type

External

Operating Temperature

-40°C ~ 125°C

Package / Case

144-LFQFP

Packages

PG-LQFP-144

Max Clock Frequency

80.0 MHz

Sram (incl. Cache)

48.0 KByte

Can Nodes

A / D Input Lines (incl. Fadc)

Program Memory

1.0 MB

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Eeprom Size

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2.4.3

The TC1736’s STM is designed for global system timing applications requiring both high

precision and long range.

Features

•

Special STM register semantics provide synchronous views of the entire 56-bit counter,

or 32-bit subsets at different levels of resolution.

The maximum clock period is 2

28.56 years before overflowing. Thus, it is capable of continuously timing the entire

expected product life time of a system without overflowing.

The STM can be optionally disabled for power-saving purposes, or suspended for

debugging purposes via its clock control register. In suspend mode of the TC1736

(initiated by writing an appropriate value to STM_CLC register), the STM clock is

stopped but all registers are still readable.

Due to the 56-bit width of the STM, it is not possible to read its entire content with one

instruction. It needs to be read with two load instructions. Since the timer would continue

to count between the two load operations, there is a chance that the two values read are

not consistent (due to possible overflow from the low part of the timer to the high part

between the two read operations). To enable a synchronous and consistent reading of

the STM content, a capture register (STM_CAP) is implemented. It latches the content

of the high part of the STM each time when one of the registers STM_TIM0 to STM_TIM5

is read. Thus, STM_CAP holds the upper value of the timer at exactly the same time

when the lower part is read. The second read operation would then read the content of

the STM_CAP to get the complete timer value.

The STM can also be read in sections from seven registers, STM_TIM0 through

STM_TIM6, that select increasingly higher-order 32-bit ranges of the STM. These can

be viewed as individual 32-bit timers, each with a different resolution and timing range.

The content of the 56-bit System Timer can be compared against the content of two

compare values stored in the STM_CMP0 and STM_CMP1 registers. Service requests

1) “STM registers” means all registers except STM_CLC, STM_SRC0, and STM_SRC1.

Data Sheet

Free-running 56-bit counter

All 56 bits can be read synchronously

Different 32-bit portions of the 56-bit counter can be read synchronously

Flexible interrupt generation based on compare match with partial STM content

Driven by maximum 80 MHz (=

Counting starts automatically after a reset operation

STM registers are reset by an application reset if bit ARSTDIS.STMDIS is cleared. If

bit ARSTDIS.STMDIS is set, the STM registers are not reset.

STM can be halted in debug/suspend mode

System Timer

STM

SYS

, default after reset =

. At

STM

= 80 MHz, for example, the STM counts

SYS

/2)

Introduction

V1.1, 2009-08

TC1736

SAK-TC1736-128F80HL AA Infineon Technologies, SAK-TC1736-128F80HL AA Datasheet - Page 23

SAK-TC1736-128F80HL AA

Specifications of SAK-TC1736-128F80HL AA

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