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CC430F5125 Datasheet, PDF (2/118 Pages) Texas Instruments – MSP430 SoC With RF Core
CC430F614x
CC430F514x
CC430F512x
ECCN 5E002 TSPA - Technology / Software Publicly Available
SLAS555A – NOVEMBER 2012 – REVISED FEBRUARY 2013
www.ti.com
DESCRIPTION
The Texas Instruments CC430 family of ultralow-power microcontroller system-on-chip with integrated RF
transceiver cores consists of several devices featuring different sets of peripherals targeted for a wide range of
applications. The architecture, combined with seven low-power modes (including LPM3.5 and LMP4.5), is
optimized to achieve extended battery life in portable measurement applications. The device features the
powerful MSP430™ 16-bit RISC CPU, 16-bit registers, and constant generators that contribute to maximum code
efficiency.
The CC430 family provides a tight integration between the microcontroller core, its peripherals, software, and the
RF transceiver, making these true system-on-chip solutions easy to use as well as improving performance.
The CC430F614x series are microcontroller system-on-chip configurations combining the excellent performance
of the state-of-the-art CC1101 sub-1-GHz RF transceiver with the MSP430 CPUXV2, up to 32 kB of in-system
programmable flash memory, up to 4 kB of RAM, two 16-bit timers, a high-performance 10-bit A/D converter with
eight external inputs plus internal temperature and battery sensors, comparator, universal serial communication
interfaces (USCIs), 128-bit AES security accelerator, hardware multiplier, DMA, real-time clock module with
alarm capabilities, LCD driver, and up to 44 I/O pins.
The CC430F514x and CC430F512x series are microcontroller system-on-chip configurations combining the
excellent performance of the state-of-the-art CC1101 sub-1-GHz RF transceiver with the MSP430 CPUXV2, up
to 32 kB of in-system programmable flash memory, up to 4 kB of RAM, two 16-bit timers, a high performance 10-
bit A/D converter with six external inputs plus internal temperature and battery sensors on CC430F514x devices,
comparator, universal serial communication interfaces (USCI), 128-bit AES security accelerator, hardware
multiplier, DMA, real-time clock module with alarm capabilities, and up to 30 I/O pins.
Typical applications for these devices include wireless analog and digital sensor systems, heat cost allocators,
thermostats, metering (AMR, AMI), smart grid wireless networks etc.
Family members available are summarized in Table 1.
For complete module descriptions, see the CC430 Family User's Guide (SLAU259).
Table 1. Family Members
USCI
Device
Channel Channel
Program
(KB)
SRAM
(KB)
Timer_A(1) LCD_B(2)
A:
UART,
B:
SPI, I2C
ADC10_A(2) Comp_B
I/O
Package
LIN, IrDA,
SPI
CC430F6147
32
4
5, 3
96 seg
1
1
8 ext,
4 int ch.
8 ch.
44 64 RGC
CC430F6145
16
2
5, 3
96 seg
1
1
8 ext,
4 int ch.
8 ch.
44 64 RGC
CC430F6143
8
2
5, 3
96 seg
1
1
8 ext,
4 int ch.
8 ch.
44 64 RGC
CC430F5147
32
4
5, 3
n/a
1
1
6 ext,
4 int ch.
6 ch.
30 48 RGZ
CC430F5145
16
2
5, 3
n/a
1
1
6 ext,
4 int ch.
6 ch.
30 48 RGZ
CC430F5143
8
2
5, 3
n/a
1
1
6 ext,
4 int ch.
6 ch.
30 48 RGZ
CC430F5125
16
2
5, 3
n/a
1
1
n/a
6 ch.
30 48 RGZ
CC430F5123
8
2
5, 3
n/a
1
1
n/a
6 ch.
30 48 RGZ
(1) Each number in the sequence represents an instantiation of Timer_A with its associated number of capture compare registers and PWM
output generators available. For example, a number sequence of 5, 3 would represent two instantiations of Timer_A, the first
instantiation having 5 and the second instantiation having 3 capture compare registers and PWM output generators, respectively.
(2) n/a = not available
2
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