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ManualsBrandsTEXAS INSTRUMENTS ManualsMicrocontrollers, Microprocessors & QuartzesEmbedded microcontroller BGA 113 MicroStar Junior (7x7) 16-Bit 16 MHz I/O number 64
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R
O/P(DAC12_x)
Max
0.3
AV
CC
AV
CC
−0.3V
V
OUT
Min
R
Load
AV
CC
C
Load
= 100pF
2
I
Load
DAC12
O/P(DAC12_x)
MSP430F261x
MSP430F241x
www.ti.com
SLAS541K JUNE 2007REVISED NOVEMBER 2012
12-Bit DAC Output Specifications
over recommended ranges of supply voltage and operating free-air temperature (unless otherwise noted)
PARAMETER TEST CONDITIONS V
CC
MIN TYP MAX UNIT
No Load, V
eREF+
= AV
CC
,
DAC12_xDAT = 0h, DAC12IR = 1, 0 0.005
DAC12AMPx = 7
No Load, V
eREF+
= AV
CC
,
AV
CC
-
DAC12_xDAT = 0FFFh, DAC12IR = 1, AV
CC
0.05
DAC12AMPx = 7
Output voltage range
(1)
(see
V
O
2.2 V, 3 V V
Figure 44)
R
Load
= 3 kΩ, V
eREF+
= AV
CC
,
DAC12_xDAT = 0h, DAC12IR = 1, 0 0.1
DAC12AMPx = 7
R
Load
= 3 kΩ, V
eREF+
= AV
CC
,
AV
CC
-
DAC12_xDAT = 0FFFh, DAC12IR = 1, AV
CC
0.13
DAC12AMPx = 7
Maximum DAC12 load
C
L(DAC12)
2.2 V, 3 V 100 pF
capacitance
2.2 V -0.5 0.5
I
L(DAC12)
Maximum DAC12 load current mA
3 V -1 1
R
Load
= 3 kΩ, V
O/P(DAC12)
= 0 V,
150 250
DAC12AMPx = 7, DAC12_xDAT = 0h
R
Load
= 3 kΩ, V
O/P(DAC12)
= AV
CC
,
Output resistance (see DAC12AMPx = 7, 150 250
R
O/P(DAC12)
2.2 V, 3 V Ω
Figure 44) DAC12_xDAT = 0FFFh
R
Load
= 3 kΩ,
0.3 V < V
O/P(DAC12)
< AV
CC
- 0.3 V, 1 4
DAC12AMPx = 7
(1) Data is valid after the offset calibration of the output amplifier.
Figure 44. DAC12_x Output Resistance Tests
12-Bit DAC Reference Input Specifications
over recommended ranges of supply voltage and operating free-air temperature (unless otherwise noted)
PARAMETER TEST CONDITIONS V
CC
MIN TYP MAX UNIT
DAC12IR = 0
(1)(2)
AV
CC
/ 3 AV
CC
+ 0.2
Reference input
V
eREF+
2.2 V, 3 V V
voltage range
DAC12IR = 1
(3)(4)
AV
CC
AV
CC
+ 0.2
DAC12_0 IR = DAC12_1 IR = 0 20 MΩ
DAC12_0 IR = 1, DAC12_1 IR = 0
R
i(VREF+)
, Reference input 40 48 56
2.2 V, 3 V
DAC12_0 IR = 0, DAC12_1 IR = 1
R
i(VeREF+)
resistance
kΩ
DAC12_0 IR = DAC12_1 IR = 1,
20 24 28
DAC12_0 SREFx = DAC12_1 SREFx
(5)
(1) For a full-scale output, the reference input voltage can be as high as 1/3 of the maximum output voltage swing (AV
CC
).
(2) The maximum voltage applied at reference input voltage terminal V
eREF+
= [AV
CC
- VE(O)] / [3 × (1 + E
G
)].
(3) For a full-scale output, the reference input voltage can be as high as the maximum output voltage swing (AV
CC
).
(4) The maximum voltage applied at reference input voltage terminal V
eREF+
= [AV
CC
- V
E(O)
] / (1 + E
G
).
(5) When DAC12IR = 1 and DAC12SREFx = 0 or 1 for both channels, the reference input resistive dividers for each DAC are in parallel
reducing the reference input resistance.
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