MAX1242/MAX1243
+2.7V to +5.25V, Low-Power, 10-Bit
Serial ADCs in SO-8
10 ______________________________________________________________________________________
External Clock
The actual conversion does not require the external
clock. This allows the conversion result to be read back
at the µP’s convenience at any clock rate up to
2.1MHz. The clock duty cycle is unrestricted if each
clock phase is at least 200ns. Do not run the clock
while a conversion is in progress.
Timing and Control
Conversion-start and data-read operations are con-
trolled by the
CS
and SCLK digital inputs. The timing
diagrams of Figures 8 and 9 outline serial-interface
operation.
A
CS
falling edge initiates a conversion sequence: the
T/H stage holds the input voltage, the ADC begins to
convert, and DOUT changes from high impedance to
logic low. SCLK must be kept low during the conver-
sion. An internal register stores the data when the con-
version is in progress.
EOC is signaled by DOUT going high. DOUT’s rising
edge can be used as a framing signal. SCLK shifts the
data out of this register any time after the conversion is
complete. DOUT transitions on SCLK’s falling edge.
The next falling clock edge produces the MSB of the
conversion at DOUT, followed by the remaining bits.
Since there are 10 data bits, two sub-bits, and one
leading high bit, at least 13 falling clock edges are
needed to shift out these bits. Extra clock pulses occur-
ring after the conversion result has been clocked out,
and prior to a rising edge of
CS
, produce trailing zeros
at DOUT and have no effect on converter operation.
For minimum cycle time, use DOUT’s rising edge as
the EOC signal and then clock out the data with 10.5
clock cycles at full speed (Figure 8b). Pull
CS
high after
reading the conversion’s LSB. After the specified mini-
mum time, t
CS
, pull
CS
low again to initiate the next
conversion.
Output Coding and Transfer Function
The data output from the MAX1242/MAX1243 is binary.
Figure 10 depicts the nominal transfer function. Code
transitions occur halfway between successive-integer
LSB values. If V
REF
= 2.5V, then 1LSB = 2.44mV or
2.5V / 1024.
__________Applications Information
Connection to Standard Interfaces
The MAX1242/MAX1243 serial interface is fully compat-
ible with SPI, QSPI, and Microwire standard serial inter-
faces (Figure 11).
(30 Seiten)
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