MAX195AEWE Maxim Integrated, MAX195AEWE Datasheet - Page 7
MAX195AEWE
Manufacturer Part Number
MAX195AEWE
Description
Analog to Digital Converters - ADC
Manufacturer
Maxim Integrated
Datasheet
1.MAX195BEPE.pdf
(28 pages)
Specifications of MAX195AEWE
Number Of Channels
1
Architecture
SAR
Conversion Rate
85 KSPs
Resolution
16 bit
Input Type
Single-Ended
Interface Type
QSPI, Serial (SPI, Microwire)
Operating Supply Voltage
4.75 V to 5.25 V
Maximum Power Dissipation
842 mW
Number Of Converters
1
Voltage Reference
5 V
If the power supplies do not settle within the MAX195’s
power-on delay (500ns minimum), power-up calibration
may begin with supply voltages that differ from the final
values and the converter may not be properly calibrat-
ed. If so, recalibrate the converter (pulse RESET low)
before use. For best DC accuracy, calibrate the
MAX195 any time there is a significant change in sup-
ply voltages, temperature, reference voltage, or clock
characteristics (see External Clock section) because
these parameters affect the DC offset. If linearity is the
only concern, much larger changes in these parame-
ters can be tolerated.
Because the calibration data is stored digitally, there is
no need either to perform frequent conversions to main-
tain accuracy or to recalibrate if the MAX195 has been
held in shutdown for long periods. However, recalibra-
tion is recommended if it is likely that ambient tempera-
ture or supply voltages have significantly changed
since the previous calibration.
The digital interface pins consist of BP/UP/SHDN, CLK,
SCLK, EOC, CS, CONV, and RESET.
BP/UP/SHDN is a three-level input. Leave it floating to
configure the MAX195’s analog input in bipolar mode
(AIN = -V
Figure 3. Initiating Conversions—At least 3 CLK cycles since end of previous conversion.
TRACK/HOLD
REF
CONV
to V
EOC
CLK
16-Bit, 85ksps ADC with 10µA Shutdown
REF
_______________________________________________________________________________________
) or connect it high for a unipolar
CONVERSION
Digital Interface
ENDS
*
THE FALLING EDGE OF CONV MUST OCCUR IN THIS REGION
t
CEL
t
AQ
input (AIN = 0V to V
places the MAX195 in its 10µA shutdown mode.
A logic low on RESET halts MAX195 operation. The ris-
ing edge of RESET initiates calibration as described in
the Calibration section above.
Begin a conversion by bringing CONV low. After con-
version begins, additional convert start pulses are
ignored. The convert signal must be synchronized with
CLK. The falling edge of CONV must occur during the
period shown in Figures 3 and 4. When CLK is not
directly controlled by your processor, two methods of
ensuring synchronization are to drive CONV from EOC
(continuous conversions) or to gate the conversion-start
signal with the conversion clock so that CONV can go
low only while CLK is low (Figure 5). Ensure that the
maximum propagation delay through the gate is less
than 40ns.
The MAX195 automatically ensures four CLK periods
for track/hold acquisition. If, when CONV is asserted, at
least three clock (CLK) cycles have passed since the
end of the previous conversion, a conversion will begin
on CLK’s next falling edge and EOC will go high on the
following falling CLK edge (Figure 3). If, when convert
is asserted, less than three clock cycles have passed,
a conversion will begin on the fourth falling clock edge
t
CC1
*
CONVERSION
BEGINS
REF
t
CC2
t
). Bringing BP/UP/SHDN low
CW
t
CEH
7
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