MAX1274BCTC Maxim Integrated, MAX1274BCTC Datasheet - Page 12

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MAX1274BCTC

Manufacturer Part Number
MAX1274BCTC
Description
Analog to Digital Converters - ADC
Manufacturer
Maxim Integrated
Datasheet

Specifications of MAX1274BCTC

Number Of Channels
1
Architecture
SAR
Conversion Rate
1800 KSPs
Resolution
12 bit
Input Type
Differential
Snr
70 dB
Interface Type
QSPI, Serial (SPI, Microwire)
Operating Supply Voltage
4.75 V to 5.25 V
Maximum Operating Temperature
+ 70 C
Package / Case
TQFN EP
Maximum Power Dissipation
1349 mW
Minimum Operating Temperature
0 C
Number Of Converters
1
Voltage Reference
5.25 V
1.8Msps, Single-Supply, Low-Power,
True-Differential, 12-Bit ADCs
Figure 8. Unipolar Transfer Function (MAX1274 Only)
Figure 9. Bipolar Transfer Function (MAX1275 Only)
12
111...111
111...110
111...101
000...011
000...010
000...001
000...000
011...111
011...110
000...010
000...001
000...000
111...111
111...110
111...101
100...001
100...000
OUTPUT CODE
OUTPUT CODE
______________________________________________________________________________________
0
-FS
1
2
1 LSB =
- FS =
FS =
ZS = 0
3
V
4096
V
-V
REF
REF
2
2
REF
DIFFERENTIAL INPUT
DIFFERENTIAL INPUT
VOLTAGE (LSB)
VOLTAGE (LSB)
0
FULL-SCALE
TRANSITION
FULL-SCALE
TRANSITION
FS - 3/2 LSB
FS - 3/2 LSB
1 LSB =
FS = V
ZS = 0
FS
FS
V
4096
REF
REF
The MAX1274/MAX1275 serial interface is fully compati-
ble with SPI/QSPI and MICROWIRE (see Figure 11). If a
serial interface is available, set the CPU’s serial interface
in master mode so the CPU generates the serial clock.
Choose a clock frequency up to 28.8MHz.
When using SPI or MICROWIRE, the MAX1274/MAX1275
are compatible with all four modes programmed with the
CPHA and CPOL bits in the SPI or MICROWIRE control
register. Conversion begins with a CNVST falling edge.
DOUT goes low, indicating a conversion is in progress.
Two consecutive 1-byte reads are required to get the full
12 bits from the ADC. DOUT transitions on SCLK rising
edges. DOUT is guaranteed to be valid t
remains valid until t
edge. When using CPOL = 0 and CPHA = 0, or CPOL =
1 and CPHA = 1, the data is clocked into the µP on the
following rising edge. When using CPOL = 0 and CPHA
= 1, or CPOL = 1 and CPHA = 0, the data is clocked
into the µP on the next falling edge. See Figure 11 for
connections and Figures 12 and 13 for timing. See the
Timing Characteristics section to determine the best
mode to use.
Unlike SPI, which requires two 1-byte reads to acquire
the 12 bits of data from the ADC, QSPI allows the mini-
mum number of clock cycles necessary to clock in the
data. The MAX1274/MAX1275 require 16 clock cycles
from the µP to clock out the 12 bits of data. Figure 14
shows a transfer using CPOL = 1 and CPHA = 1. The
conversion result contains three zeros, followed by the
12 data bits, and a trailing zero with the data in MSB-
first format.
The MAX1274/MAX1275 can be directly connected
to the TMS320C54_ family of DSPs from Texas
Instruments, Inc. Set the DSP to generate its own
clocks or use external clock signals. Use either the
standard or buffered serial port. Figure 15 shows the
simplest interface between the MAX1274/MAX1275 and
the TMS320C54_, where the transmit serial clock
(CLKX) drives the receive serial clock (CLKR) and
SCLK, and the transmit frame sync (FSX) drives the
receive frame sync (FSR) and CNVST.
For continuous conversion, set the serial port to trans-
mit a clock, and pulse the frame sync signal for a clock
period before data transmission. The serial-port config-
uration (SPC) register should be set up with internal
DSP Interface to the TMS320C54_
DHOLD
Standard Interfaces
after the following SCLK rising
SPI and MICROWIRE
Connection to
DOUT
later and
QSPI

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