Datasheet
Table Of Contents
- features
- description
- pin designation
- functional block diagram
- Terminal Functions
- short-form description
- absolute maximum ratings
- recommended operating conditions
- electrical characteristics
- supply current into AVCC + DVCC1/2 excluding external current
- SCHMITT-trigger inputs − Ports P1, P2, P3, P4, P5, and P6; RST/NMI; JTAG: TCK, TMS, TDI/TCLK, TDO/TDI
- inputs Px.x, TAx, TBx
- leakage current − Ports P1, P2, P3, P4, P5, and P6
- outputs − Ports P1, P2, P3, P4, P5, and P6
- output frequency
- wake-up LPM3
- RAM
- LCD
- Comparator_A
- POR/brownout reset (BOR)
- SVS (supply voltage supervisor/monitor)
- DCO
- crystal oscillator, LFXT1 oscillator
- crystal oscillator, XT2 oscillator
- USART0
- 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
- Flash Memory
- JTAG Interface
- JTAG Fuse
- Application Information
- input/output schematic
- Port P1, P1.0 to P1.5, input/output with Schmitt-trigger
- Port P1, P1.6, P1.7, input/output with Schmitt-trigger
- port P2, P2.0, P2.4 to P2.5, input/output with Schmitt-trigger
- port P2, P2.1 to P2.3, input/output with Schmitt-trigger
- port P2, P2.6 to P2.7, input/output with Schmitt-trigger
- port P3, P3.0 to P3.3, input/output with Schmitt-trigger
- port P3, P3.4 to P3.7, input/output with Schmitt-trigger
- port P4, P4.0 to P4.5, input/output with Schmitt-trigger
- port P4, P4.6, input/output with Schmitt-trigger
- port P4, P4.7, input/output with Schmitt-trigger
- port P5, P5.0, input/output with Schmitt-trigger
- port P5, P5.1, input/output with Schmitt-trigger
- port P5, P5.2 to P5.4, input/output with Schmitt-trigger
- port P5, P5.5 to P5.7, input/output with Schmitt-trigger
- port P6, P6.0, P6.2, and P6.4, input/output with Schmitt-trigger
- port P6, P6.1, input/output with Schmitt-trigger
- port P6, P6.3, input/output with Schmitt-trigger
- port P6, P6.5, input/output with Schmitt-trigger
- port P6, P6.6, input/output with Schmitt-trigger
- port P6, P6.7, input/output with Schmitt-trigger
- VeREF+/DAC0
- JTAG pins TMS, TCK, TDI/TCLK, TDO/TDI, input/output with Schmitt-trigger or output
- JTAG fuse check mode
- input/output schematic
- Data Sheet Revision History
- Corrections to MSP430FG43x Data Sheet (SLAS380C)
MSP430FG43x
MIXED SIGNAL MICROCONTROLLER
SLAS380C − APRIL 2004 − REVISED MARCH 2011
38
POST OFFICE BOX 655303 • DALLAS, TEXAS 75265
POST OFFICE BOX 1443
• HOUSTON, TEXAS 77251−1443
electrical characteristics over recommended operating free-air temperature (unless otherwise
noted) (continued)
12-bit ADC, temperature sensor and built-in V
MID
PARAMETER
TEST CONDITIONS V
CC
MIN NOM MAX UNIT
I
Operatin
g
suppl
y
current into REFON = 0, INCH = 0Ah,
2.2 V 40 120
A
I
SENSOR
Operating
supply
current
into
AV
CC
terminal (see Note 1)
REFON
=
0
,
INCH
=
0Ah
,
ADC12ON=NA, T
A
= 25_C
3 V 60 160
μA
V
(see Note 2)
ADC12ON = 1, INCH = 0Ah, 2.2 V/
986
mV
V
SENSOR
(see Note 2)
ADC12ON
=
1
,
INCH
=
0Ah
,
T
A
= 0°C
2
.
2
V/
3 V
986 mV
TC
ADC12ON 1 INCH 0Ah
2.2 V/
355±3%
mV/°C
TC
SENSOR
ADC12ON = 1, INCH = 0Ah
2
.
2
V/
3 V
3.55±3% mV/°C
t
Sample time required if
channel 10 is selected
ADC12ON = 1, INCH = 0Ah,
2.2 V 30
s
t
SENSOR(sample)
channel 10 is selected
(see Note 3)
ADC12ON
=
1
,
INCH
=
0Ah
,
Error of conversion result ≤ 1 LSB
3 V 30
μs
I
Current into divider at
ADC12ON 1 INCH 0Bh
2.2 V NA
A
I
VMID
Current
into
divider
at
channel 11 (see Note 4)
ADC12ON = 1, INCH = 0Bh,
3 V NA
μA
V
AV divider at channel 11
ADC12ON = 1, INCH = 0Bh,
2.2 V 1.1 1.1±0.04
V
V
MID
AV
CC
divider at channel 11
ADC12ON
=
1
,
INCH
=
0Bh
,
V
MID
is ~0.5 x V
AVCC
3 V 1.5 1.50±0.04
V
t
Sample time required if
channel 11 is selected
ADC12ON = 1, INCH = 0Bh,
2.2 V 1400
ns
t
VMID(sample)
channel 11 is selected
(see Note 5)
ADC12ON
=
1
,
INCH
=
0Bh
,
Error of conversion result ≤ 1 LSB
3 V 1220
ns
NOTES: 1. The sensor current I
SENSOR
is consumed if (ADC12ON = 1 and REFON=1), or (ADC12ON=1 AND INCH=0Ah and sample signal
is high). When REFON = 1, I
SENSOR
is already included in I
REF+
.
2. The temperature sensor offset can be as much as ±20_C. A single-point calibration is recommended in order to minimize the offset
error of the built-in temperature sensor.
3. The typical equivalent impedance of the sensor is 51 kΩ. The sample time required includes the sensor-on time t
SENSOR(on)
4. No additional current is needed. The V
MID
is used during sampling.
5. The on-time t
VMID(on)
is included in the sampling time t
VMID(sample)
; no additional on time is needed.
12-bit DAC, supply specifications
PARAMETER TEST CONDITIONS V
CC
MIN TYP MAX UNIT
AV
CC
Analog supply voltage
AV
CC
=
DV
CC
,
AV
SS
= DV
SS
=0 V
2.20 3.60 V
DAC12AMPx=2, DAC12IR=0,
DAC12_xDAT=0800h
2.2V/3V 50 110
I
Supply Current:
Single DAC Channel
DAC12AMPx=2, DAC12IR=1,
DAC12_xDAT=0800h
,
V
eREF+
=V
REF+
= AV
CC
2.2V/3V 50 110
A
I
DD
Single DAC Channel
(see Notes 1 and 2)
DAC12AMPx=5, DAC12IR=1,
DAC12_xDAT=0800h, V
eREF+
=V
REF+
= AV
CC
2.2V/3V 200 440
μA
DAC12AMPx=7, DAC12IR=1,
DAC12_xDAT=0800h, V
eREF+
=V
REF+
= AV
CC
2.2V/3V 700 1500
PSRR
Power supply
rejection ratio
DAC12_xDAT = 800h, V
REF
= 1.5 V
ΔAV
CC
= 100mV
2.2V
70
dB
PSRR
rejection ratio
(see Notes 3 and 4)
DAC12_xDAT = 800h, V
REF
= 1.5 V or 2.5 V
ΔAV
CC
= 100mV
3V
70 dB
NOTES: 1. No load at the output pin, DAC12_0 or DAC12_1, assuming that the control bits for the shared pins are set properly.
2. Current into reference terminals not included. If DAC12IR = 1 current flows through the input divider; see Reference Input
specifications.
3. PSRR = 20*log{ΔAV
CC
/ΔV
DAC12_xOUT
}.
4. V
REF
is applied externally. The internal reference is not used.