MAX1081BEUP+ Maxim Integrated Products, MAX1081BEUP+ Datasheet - Page 19
MAX1081BEUP+
Manufacturer Part Number
MAX1081BEUP+
Description
IC ADC 10BIT 300KSPS 20-TSSOP
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX1080BEUP.pdf
(24 pages)
Specifications of MAX1081BEUP+
Number Of Bits
10
Sampling Rate (per Second)
300k
Data Interface
MICROWIRE™, QSPI™, Serial, SPI™
Number Of Converters
1
Power Dissipation (max)
8.0mW
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
20-TSSOP
Number Of Adc Inputs
8
Architecture
SAR
Conversion Rate
300 KSPs
Resolution
10 bit
Input Type
Differential
Interface Type
4-Wire (SPI, QSPI, MICROWIRE, TMS320)
Voltage Reference
Internal 2.5 V or External
Supply Voltage (max)
3.6 V
Supply Voltage (min)
2.7 V
Maximum Power Dissipation
559 mW
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Minimum Operating Temperature
- 40 C
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
8-Channel, Serial 10-Bit ADCs with Internal Reference
An external reference can be placed at the input
(REFADJ) or the output (REF) of the internal reference-
buffer amplifier. The REFADJ input impedance is typi-
cally 17kΩ. At REF, the DC input resistance is a
minimum of 18kΩ. During conversion, an external refer-
ence at REF must deliver up to 350µA DC load current
and have 10Ω or less output impedance. If the refer-
ence has a higher output impedance or is noisy, bypass
it close to the REF pin with a 4.7µF capacitor.
Using the REFADJ input makes buffering the external
reference unnecessary. To use the direct REF input,
disable the internal buffer by connecting REFADJ to
V
Figure 13. MAX1081 Reference-Adjust Circuit
Figure 14. Unipolar Transfer Function, Full Scale (FS) = V
+ V
DD1
11 . . . 111
11 . . . 110
11 . . . 101
00 . . . 011
00 . . . 010
00 . . . 001
00 . . . 000
COM
.
100k
OUTPUT CODE
24k
, Zero Scale (ZS) = V
(COM)
+3.3V
0
1
300ksps/400ksps, Single-Supply, Low-Power,
2
INPUT VOLTAGE (LSB)
______________________________________________________________________________________
3
510k
0.01µF
COM
FULL-SCALE
TRANSITION
12
FS - 3/2LSB
External Reference
REFADJ
MAX1081
ZS = V
1LSB =
FS = V
FS
REF
COM
1024
V
REF
+ V
COM
REF
Table 5 shows the full-scale voltage ranges for unipolar
and bipolar modes. Figure 14 depicts the nominal,
unipolar input/output (I/O) transfer function, and Figure
15 shows the bipolar I/O transfer function. Code transi-
tions occur halfway between successive-integer LSB
values. Output coding is binary, with 1LSB = 2.44mV
for unipolar and bipolar operation.
For best performance, use PC boards; wire-wrap boards
are not recommended. Board layout should ensure that
digital and analog signal lines are separated from each
other. Do not run analog and digital (especially clock)
lines parallel to one another, or digital lines underneath
the ADC package.
Figure 16 shows the recommended system ground
connections. Establish a single-point analog ground
(star ground point) at GND. Connect all other analog
grounds to the star ground. Connect the digital system
ground to this ground only at this point. For lowest-
noise operation, the ground return to the star ground’s
power supply should be low impedance and as short
as possible.
High-frequency noise in the V
affect the high-speed comparator in the ADC. Bypass
the supply to the star ground with 0.1µF and 10µF
capacitors close to pin 20 of the MAX1080/MAX1081.
Figure 15. Bipolar Transfer Function, Full Scale (FS) =
V
REF
*V
011 . . . 111
011 . . . 110
000 . . . 010
000 . . . 001
000 . . . 000
111 . . . 111
111 . . . 110
111 . . . 101
100 . . . 001
100 . . . 000
COM
/ 2 + V
≤
OUTPUT CODE
V
REF
/ 2
COM
Layout, Grounding, and Bypassing
-FS =
1LSB =
- FS
ZS = V
FS = V
, Zero Scale (ZS) = V
-V
COM
REF
2
2
REF
1024
V
REF
+ V
+ V
COM
COM
INPUT VOLTAGE (LSB)
COM*
DD1
Transfer Function
COM
power supply may
+FS - 1LSB
19
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