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MAX12553 Datasheet, PDF (18/28 Pages) Maxim Integrated Products – 14-Bit, 65Msps, 3.3V ADC | |||
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14-Bit, 65Msps, 3.3V ADC
Data Out-of-Range Indicator (DOR)
The DOR digital output indicates when the analog input
voltage is out of range. When DOR is high, the analog
input is out of range. When DOR is low, the analog
input is within range. The valid differential input range is
from (VREFP - VREFN) x 3/4 to (VREFN - VREFP) x 3/4.
Signals outside this valid differential range cause DOR
to assert high as shown in Table 2 and Figure 6.
DOR is synchronized with DAV and transitions along
with the output data D13âD0. There is an 8.5 clock-
cycle latency in the DOR function as is with the output
data (Figure 6).
DOR is high impedance when the MAX12553 is in
power-down (PD = high). DOR enters a high-imped-
ance state within 10ns after the rising edge of PD and
becomes active 10ns after PDâs falling edge.
Digital Output Data (D13âD0), Output Format (G/T)
The MAX12553 provides a 14-bit, parallel, tri-state out-
put bus. D13âD0 and DOR update on the falling edge
of DAV and are valid on the rising edge of DAV.
The MAX12553 output data format is either Gray code
or twoâs complement, depending on the logic input G/T.
With G/T high, the output data format is Gray code.
With G/T low, the output data format is twoâs comple-
ment. See Figure 8 for a binary-to-Gray and Gray-to-
binary code-conversion example.
The following equations, Table 2, Figure 7, and Figure 8
define the relationship between the digital output and
the analog input:
VINP â VINN
= (VREFP â VREFN) Ã
4
3
à CODE10 â 8192
16384
for Gray code (G/T = 1)
VINP â VINN = (VREFP â VREFN) Ã
4
3
à CODE10
16384
for twoâs complement (G/T = 0)
where CODE10 is the decimal equivalent of the digital
output code as shown in Table 2.
Digital outputs D13âD0 are high impedance when the
MAX12553 is in power-down (PD = high). D13âD0 tran-
sition high 10ns after the rising edge of PD and
become active 10ns after PDâs falling edge.
Keep the capacitive load on the MAX12553 digital out-
puts D13âD0 as low as possible (<15pF) to avoid large
digital currents feeding back into the analog portion of
the MAX12553 and degrading its dynamic perfor-
mance. The addition of external digital buffers on the
digital outputs isolates the MAX12553 from heavy
capacitive loading. To improve the dynamic perfor-
mance of the MAX12553, add 220⦠resistors in series
with the digital outputs close to the MAX12553. Refer to
the MAX12555 evaluation kit schematic for an example
of the digital outputs driving a digital buffer through
220⦠series resistors.
Power-Down Input (PD)
The MAX12553 has two power modes that are con-
trolled with the power-down digital input (PD). With PD
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