MAX1274BCTC

Manufacturer Part NumberMAX1274BCTC
DescriptionAnalog to Digital Converters - ADC
ManufacturerMaxim Integrated
MAX1274BCTC datasheet
 

Specifications of MAX1274BCTC

Number Of Channels1ArchitectureSAR
Conversion Rate1800 KSPsResolution12 bit
Input TypeDifferentialSnr70 dB
Interface TypeQSPI, Serial (SPI, Microwire)Operating Supply Voltage4.75 V to 5.25 V
Maximum Operating Temperature+ 70 CPackage / CaseTQFN EP
Maximum Power Dissipation1349 mWMinimum Operating Temperature0 C
Number Of Converters1Voltage Reference5.25 V
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1.8Msps, Single-Supply, Low-Power,
True-Differential, 12-Bit ADCs
Serial Interface
Initialization After Power-Up
and Starting a Conversion
Upon initial power-up, the MAX1274/MAX1275 require a
complete conversion cycle to initialize the internal cali-
bration. Following this initial conversion, the part is ready
for normal operation. This initialization is only required
after a hardware power-up sequence and is not required
after exiting partial or full power-down mode.
To start a conversion, pull CNVST low. At CNVST’s
falling edge, the T/H enters its hold mode and a conver-
sion is initiated. SCLK runs the conversion and the data
can then be shifted out serially on DOUT.
Timing and Control
Conversion-start and data-read operations are con-
trolled by the CNVST and SCLK digital inputs. Figures 1
and 5 show timing diagrams, which outline the serial-
interface operation.
CNVST
t
SETUP
1
2
SCLK
HIGH IMPEDANCE
DOUT
Figure 5. Interface-Timing Sequence
CNVST
ONE 8-BIT TRANSFER
SCLK
1ST SCLK RISING EDGE
DOUT
0
0
0
MODE
NORMAL
Figure 6. SPI Interface—Partial Power-Down Mode
10
______________________________________________________________________________________
A CNVST 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 is used to drive the conversion
process, and it shifts data out as each bit of the conver-
sion is determined.
SCLK begins shifting out the data after the 4th rising
edge of SCLK. DOUT transitions t
SCLK’s rising edge and remains valid 4ns (t
after the next rising edge. The 4th rising clock edge
produces the MSB of the conversion at DOUT, and the
MSB remains valid 4ns after the 5th rising edge. Since
there are 12 data bits and 3 leading zeros, at least 16
rising clock edges are needed to shift out these bits.
For continuous operation, pull CNVST high between the
14th and the 16th SCLK rising edges. If CNVST stays
low after the falling edge of the 16th SCLK cycle, the
DOUT line goes to a high-impedance state on either
CNVST’s rising edge or the next SCLK’s rising edge.
POWER-MODE SELECTION WINDOW
3
4
8
D11
D10
D9
D8
D7
D6
D5
CNVST MUST GO HIGH AFTER THE 3RD BUT BEFORE THE 14TH SCLK RISING EDGE
DOUT GOES HIGH IMPEDANCE ONCE CNVST GOES HIGH
D11
D10
D9
D8
D7
after each
DOUT
t
ACQUIRE
CONTINUOUS-CONVERSION
SELECTION WINDOW
14
16
D4
D3
D2
D1
D0
PPD
)
DHOLD