Datasheet
Table Of Contents
- features
- description
- AVAILABLE OPTIONS
- DEVELOPMENT TOOL SUPPORT
- pin designation, MSP430xG461xIPZ
- pin designation, MSP430xG461xIZQW (top view)
- functional block diagram
- Terminal Functions
- short-form description
- CPU
- instruction set
- operating modes
- interrupt vector addresses
- special function registers (SFRs)
- memory organization
- bootstrap loader (BSL)
- flash memory
- peripherals
- DMA controller
- oscillator and system clock
- brownout, supply voltage supervisor
- brownout, supply voltage supervisor
- digital I/O
- Basic Timer1 and Real-Time Clock
- LCD_A drive with regulated charge pump
- watchdog timer (WDT+)
- universal serial communication interface (USCI)
- USART1
- hardware multiplier
- Timer_A3
- Timer_B7
- Comparator_A
- ADC12
- DAC12
- OA
- peripheral file map
- absolute maximum ratings over operating free-air temperature
- recommended operating conditions
- electrical characteristics
- supply current into AVCC + DVCC excluding external current
- supply current into AVCC + DVCC excluding external current
- Schmitt-trigger inputs -- Ports P1 to P10, RST/NMI, JTAG (TCK, TMS, TDI/TCLK, TDO/TDI)
- inputs Px.x, TAx, TBx
- leakage current -- Ports P1 to P10
- outputs -- Ports P1 to P10
- output frequency
- wake-up LPM3
- RAM
- LCD_A
- Comparator_A
- POR/brownout reset (BOR)
- SVS (supply voltage supervisor/monitor)
- DCO
- crystal oscillator, LFXT1 oscillator
- crystal oscillator, LFXT1 oscillator
- crystal oscillator, XT2 oscillator
- USCI (UART mode)
- USCI (SPI master mode)
- USCI (SPI slave mode)
- USCI (I2C mode)
- USART1
- 12-bit ADC, power supply and input range conditions
- 12-bit ADC, power supply and input range conditions
- 12-bit ADC, external reference
- 12-bit ADC, built-in reference
- 12-bit ADC, timing parameters
- 12-bit ADC, linearity parameters
- 12-bit ADC, temperature sensor and built-in VMID
- 12-bit DAC, supply specifications
- 12-bit DAC, linearity specifications
- 12-bit DAC, output specifications
- 12-bit DAC, reference input specifications
- 12-bit DAC, dynamic specifications; Vref = VCC, DAC12IR = 1
- operational amplifier OA, supply specifications
- operational amplifier OA, input/output specifications
- operational amplifier OA, dynamic specifications
- operational amplifier OA feedback network, noninverting amplifier mode (OAFCx = 4)
- operational amplifier OA feedback network, inverting amplifier mode (OAFCx = 6)
- flash memory (MSP430FG461x devices only)
- JTAG interface
- JTAG fuse
- APPLICATION INFORMATION
- input/output schematics
- Port P1, P1.0 to P1.5, input/output with Schmitt trigger
- Port P1 (P1.0 to P1.5) pin functions
- Port P1, P1.6, P1.7, input/output with Schmitt trigger
- Port P1 (P1.6 and P1.7) pin functions
- port P2, P2.0 to P2.3, P2.6 to P2.7, input/output with Schmitt trigger
- Port P2 (P2.0, P2.1, P2.2, P2.3, P2.6 and P2.7) pin functions
- port P2, P2.4 to P2.5, input/output with Schmitt trigger
- Port P2 (P2.4 and P2.5) pin functions
- port P3, P3.0 to P3.3, input/output with Schmitt trigger
- Port P3 (P3.0 to P3.3) pin functions
- port P3, P3.4 to P3.7, input/output with Schmitt trigger
- Port P3 (P3.4 to P3.7) pin functions
- port P4, P4.0 to P4.1, input/output with Schmitt trigger
- Port P4 (P4.0 to P4.1) pin functions
- port P4, P4.2 to P4.7, input/output with Schmitt trigger
- Port P4 (P4.2 to P4.5) pin functions
- port P5, P5.0, input/output with Schmitt trigger
- Port P5 (P5.0) pin functions
- port P5, P5.1, input/output with Schmitt trigger
- Port P5 (P5.1) pin functions
- port P5, P5.2 to P5.4, input/output with Schmitt trigger
- Port P5 (P5.2 to P5.4) pin functions
- port P5, P5.5 to P5.7, input/output with Schmitt trigger
- Port P5 (P5.5 to P5.7) pin functions
- port P6, P6.0, P6.2, and P6.4, input/output with Schmitt trigger
- Port P6 (P6.0, P6.2, and P6.4) pin functions
- port P6, P6.1, P6.3, and P6.5 input/output with Schmitt trigger
- Port P6 (P6.1, P6.3, and P6.5) pin functions
- port P6, P6.6, input/output with Schmitt trigger
- Port P6 (P6.6) pin functions
- port P6, P6.7, input/output with Schmitt trigger
- Port P6 (P6.7) pin functions
- port P7, P7.0 to P7.3, input/output with Schmitt trigger
- Port P7 (P7.0 to P7.1) pin functions
- port P7, P7.4 to P7.7, input/output with Schmitt trigger
- Port P7 (P7.4 to P7.5) pin functions
- port P8, P8.0 to P8.7, input/output with Schmitt trigger
- Port P8 (P8.0 to P8.1) pin functions
- Port P8 (P8.6 to P8.7) pin functions
- port P9, P9.0 to P9.7, input/output with Schmitt trigger
- Port P9 (P9.0 to P9.1) pin functions
- port P10, P10.0 to P10.5, input/output with Schmitt trigger
- Port P10 (P10.0 to P10.1) pin functions
- port P10, P10.6, input/output with Schmitt trigger
- Port P10 (P10.6) pin functions
- port P10, P10.7, input/output with Schmitt trigger
- Port P10 (P10.7) pin functions
- VeREF+/DAC0
- JTAG pins TMS, TCK, TDI/TCLK, TDO/TDI, input/output with Schmitt trigger or output
- JTAG fuse check mode
- input/output schematics
- Data Sheet Revision History
MSP430xG461x
MIXED SIGNAL MICROCONTROLLER
SLAS508I − APRIL 2006 − REVISED MARCH 2011
50
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
electrical characteristics over recommended operating free-air temperature (unless otherwise
noted) (continued)
12-bit ADC, built-in reference
PARAMETER TEST CONDITIONS MIN NOM MAX UNIT
V
Positive built-in reference
REF2_5V = 1 for 2.5 V,
I
VREF+
max ≤ I
VREF+
≤ I
VREF+
min
V
CC
= 3 V 2.4 2.5 2.6
V
V
REF+
Positive
built in
reference
voltage output
REF2_5V = 0 for 1.5 V,
I
VREF+
max ≤ I
VREF+
≤ I
VREF+
min
V
CC
=
2.2 V/3 V
1.44 1.5 1.56
V
AV
CC
minimum voltage,
REF2_5V = 0, I
VREF+
max ≤ I
VREF+
≤ I
VREF+
min 2.2
AV
CC
(
min
)
AV
CC
minimum
voltage
,
Positive built-in reference
REF2_5V = 1, I
VREF+
min ≥ I
VREF+
≥ −0.5mA 2.8
V
AV
CC(min)
Positive
built in
reference
active
REF2_5V = 1, I
VREF+
min ≥ I
VREF+
≥ −1mA 2.9
V
I
Load current out of V
REF+
V
CC
= 2.2 V 0.01 −0.5
mA
I
VREF+
Load
current
out
of
V
REF
+
terminal
V
CC
= 3 V 0.01 −1
mA
I
VREF+
= 500 μA +/− 100 μA,
Analog input voltage 0 75 V;
V
CC
= 2.2 V ±2
LSB
I
Load-current re
g
ulation
Analog input voltage ~0.75 V;
REF2_5V = 0
V
CC
= 3 V ±2
LSB
I
L(VREF)+
Load current
regulation
V
REF+
terminal
I
VREF+
= 500 μA ± 100 μA,
Analog input voltage ~1.25 V,
REF2_5V = 1
V
CC
= 3 V ±2 LSB
I
Load current re
g
ulation
I
VREF+
=100 μA → 900 μA,
C 5 μFax 05xV
V 3V
20
ns
I
DL(VREF)
+
Load
current
regulation
V
REF+
terminal
C
VREF+
=5 μF, ax ~0.5 x V
REF+
,
Error of conversion result ≤ 1 LSB
V
CC
= 3 V 20 ns
C
VREF+
Capacitance at pin V
REF+
(see Note 1)
REFON =1,
0 mA ≤ I
VREF+
≤ I
VREF+
max
V
CC
=
2.2 V/3 V
5 10 μF
T
REF+
Temperature coefficient of
built-in reference
I
VREF+
is a constant in the range of
0 mA ≤ I
VREF+
≤ 1 mA
V
CC
=
2.2 V/3 V
±100 ppm/°C
t
REFON
Settle time of internal
reference voltage (see
Figure 23 and Note 2)
I
VREF+
= 0.5 mA, C
VREF+
= 10 μF,
V
REF+
= 1.5 V, V
AVCC
= 2.2 V
17 ms
NOTES: 1. The internal buffer operational amplifier and the accuracy specifications require an external capacitor. All INL and DNL tests uses
two capacitors between pins V
REF+
and AV
SS
and V
REF−
/V
eREF−
and AV
SS
: 10 μF tantalum and 100 nF ceramic.
2. The condition is that the error in a conversion started after t
REFON
is less than ±0.5 LSB. The settling time depends on the external
capacitive load.
C
VREF+
1 μF
0
1 ms
10 ms
100 ms t
REFON
t
REFON
≈ .66 x C
VREF+
[ms] with C
VREF+
in μF
100 μF
10 μF
Figure 23. Typical Settling Time of Internal Reference t
REFON
vs External Capacitor on V
REF
+