MAX1031 Maxim Integrated Products, MAX1031 Datasheet - Page 11
MAX1031
Manufacturer Part Number
MAX1031
Description
(MAX1027 - MAX1031) 10-Bit 300ksps ADCs
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX1031.pdf
(23 pages)
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In differential mode, the T/H samples the difference
between two analog inputs, eliminating common-mode
DC offsets and noise. IN+ and IN- are selected from
the following pairs: AIN0/AIN1, AIN2/AIN3, AIN4/AIN5,
AIN6/AIN7, AIN8/AIN9, AIN10/AIN11, AIN12/AIN13,
and AIN14/AIN15. AIN0–AIN7 are available on the
MAX1027, MAX1029, and MAX1031. AIN8–AIN11 are
only available on the MAX1029 and MAX1031.
AIN12–AIN15 are only available on the MAX1031. See
Tables 2–5 for more details on configuring the inputs.
For the inputs that can be configured as CNVST or an
analog input, only one can be used at a time. For the
inputs that can be configured as REF- or an analog
input, the REF- configuration excludes the analog input.
Address the unipolar and bipolar registers through the
setup register (bits 1 and 0). Program a pair of analog
channels for differential operation by writing a 1 to the
appropriate bit of the bipolar or unipolar register.
Unipolar mode sets the differential input range from 0
to V
mode causes the digital output code to be zero.
Selecting bipolar mode sets the differential input range
to ±V
lar mode and two’s complement in bipolar mode (see
the transfer function graphs, Figures 8 and 9).
In single-ended mode, the MAX1027/MAX1029/
MAX1031 always operate in unipolar mode. The analog
inputs are internally referenced to GND with a full-scale
input range from 0 to V
Figure 3. Equivalent Input Circuit
REF
(SINGLE ENDED);
(SINGLE ENDED);
(DIFFERENTIAL)
(DIFFERENTIAL)
AIN4…AIN14
AIN5…AIN15
REF
AIN0-AIN15
AIN0, AIN2,
AIN1, AIN3,
. A negative differential analog input in unipolar
GND
/ 2. The digital output code is binary in unipo-
HOLD
______________________________________________________________________________________
REF
GND
REF
V
.
HOLD
CIN+
CIN-
DD
/2
DAC
Unipolar/Bipolar
Temp Sensor, Internal Reference
10-Bit 300ksps ADCs with FIFO,
COMPARATOR
HOLD
+
-
The equivalent circuit of Figure 3 shows the
MAX1027/MAX1029/MAX1031s’ input architecture. In
track mode, a positive input capacitor is connected to
AIN0–AIN15 in single-ended mode (and AIN0, AIN2,
AIN4…AIN14 in differential mode). A negative input
capacitor is connected to GND in single-ended mode
(or AIN1, AIN3, AIN5…AIN15 in differential mode). For
external track-and-hold timing, use clock mode 01.
After the T/H enters hold mode, the difference between
the sampled positive and negative input voltages is
converted. The time required for the T/H to acquire an
input signal is determined by how quickly its input
capacitance is charged. If the input signal’s source
impedance is high, the required acquisition time
lengthens. The acquisition time, t
time needed for a signal to be acquired, plus the power-
up time. It is calculated by the following equation:
where R
input signal, and t
device. The varying power-up times are detailed in the
explanation of the clock mode conversions.
t
ance below 300Ω does not significantly affect the
ADC’s AC performance. A high-impedance source can
be accommodated either by lengthening t
placing a 1µF capacitor between the positive and neg-
ative analog inputs.
The MAX1027/MAX1029/MAX1031 contain a FIFO
buffer that can hold up to 16 ADC results plus one tem-
perature result. This allows the ADC to handle multiple
internally clocked conversions and a temperature mea-
surement, without tying up the serial bus.
If the FIFO is filled and further conversions are request-
ed without reading from the FIFO, the oldest ADC
results are overwritten by the new ADC results. Each
result contains 2 bytes, with the MSB preceded by four
leading zeros and the LSB followed by two sub-bits.
After each falling edge of CS, the oldest available byte
of data is available at DOUT, MSB first. When the FIFO
is empty, DOUT is zero.
The first 2 bytes of data read out after a temperature
measurement always contain the temperature result
preceded by four leading zeros, MSB first. If another
ACQ
is never less than 1.4µs, and any source imped-
t
AQC
IN
= 1.5kΩ, R
True Differential Analog Input T/H
=
9
PWR
x R
(
S
S
= 1µs, the power-up time of the
is the source impedance of the
+
R
IN
)
x
ACQ
24
, is the maximum
pF
Internal FIFO
+
t
PWR
ACQ
or by
11
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