1 architecture, 2 flexible clock system – Texas Instruments MSP430x4xx User Manual
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Architecture
1-2
Introduction
1.1
Architecture
The MSP430 incorporates a 16-bit RISC CPU, peripherals, and a flexible clock
system that interconnect using a von-Neumann common memory address
bus (MAB) and memory data bus (MDB). Partnering a modern CPU with
modular memory-mapped analog and digital peripherals, the MSP430 offers
solutions for demanding mixed-signal applications.
Key features of the MSP430x4xx family include:
-
Ultralow-power architecture extends battery life
J
0.1-
µ
A RAM retention
J
0.8-
µ
A real-time clock mode
J
250-
µ
A / MIPS active
-
High-performance analog ideal for precision measurement
J
12-bit or 10-bit ADC — 200 ksps, temperature sensor, V
Ref
J
12-bit dual-DAC
J
Comparator-gated timers for measuring resistive elements
J
Supply voltage supervisor
-
16-bit RISC CPU enables new applications at a fraction of the code size.
J
Large register file eliminates working file bottleneck
J
Compact core design reduces power consumption and cost
J
Optimized for modern high-level programming
J
Only 27 core instructions and seven addressing modes
J
Extensive vectored-interrupt capability
-
In-system programmable Flash permits flexible code changes, field
upgrades and data logging
1.2
Flexible Clock System
The clock system is designed specifically for battery-powered applications. A
low-frequency auxiliary clock (ACLK) is driven directly from a common 32-kHz
watch crystal. The ACLK can be used for a background real-time clock self
wake-up function. An integrated high-speed digitally controlled oscillator
(DCO) can source the master clock (MCLK) used by the CPU and high-speed
peripherals. By design, the DCO is active and stable in less than 6
µ
s.
MSP430-based solutions effectively use the high-performance 16-bit RISC
CPU in very short bursts.
-
Low-frequency auxiliary clock = Ultralow-power stand-by mode
-
High-speed master clock = High performance signal processing