4 principles for low-power applications, 5 connection of unused pins, 4 principles for low – Texas Instruments MSP430x4xx User Manual
Page 34: Power applications
Principles for Low
-
Power Applications
2-16
System Resets, Interrupts, and Operating Modes
2.4
Principles for Low
-
Power Applications
Often, the most important factor for reducing power consumption is using the
MSP430’s clock system to maximize the time in LPM3. LPM3 power
consumption is less than 2
µ
A typical with both a real-time clock function and
all interrupts active. A 32-kHz watch crystal is used for the ACLK and the CPU
is clocked from the DCO (normally off) which has a 6-
µ
s wake-up.
-
Use interrupts to wake the processor and control program flow.
-
Peripherals should be switched on only when needed.
-
Use low-power integrated peripheral modules in place of software driven
functions. For example Timer_A and Timer_B can automatically generate
PWM and capture external timing, with no CPU resources.
-
Calculated branching and fast table look-ups should be used in place of
flag polling and long software calculations.
-
Avoid frequent subroutine and function calls due to overhead.
-
For longer software routines, single-cycle CPU registers should be used.
2.5
Connection of Unused Pins
The correct termination of all unused pins is listed in Table 2−2.
Table 2−2. Connection of Unused Pins
Pin
Potential
Comment
AV
CC
DV
CC
AV
SS
DV
SS
V
REF+
Open
Ve
REF+
DV
SS
V
REF−
/Ve
REF−
DV
SS
XIN
DV
CC
XOUT
Open
XT2IN
DV
SS
43x and 44x devices
XT2OUT
Open
43x and 44x devices
Px.0 to Px.7
Open
Switched to port function, output direction
RST/NMI
DV
CC
or V
CC
47 k
Ω
pullup with 10nF pull down
R03
DV
SS
COM0
Open
TDO
Open
TDI
Open
TMS
Open
TCK
Open
Sxx
Open