參數(shù)資料
型號: MAX194
廠商: Maxim Integrated Products, Inc.
英文描述: 14-Bit, 85ksps ADC with 10礎(chǔ) Shutdown(85ksps,單通道,14位串行A/D轉(zhuǎn)換器)
中文描述: 14位、85ksps ADC,帶有10µ關(guān)斷
文件頁數(shù): 16/24頁
文件大小: 267K
代理商: MAX194
M
DC Accuracy
If DC accuracy is important, choose a buffer with an
offset much less than the MAX194’s maximum offset
(±1 LSB = ±488μV for a ±4V input range), or whose off-
set can be trimmed while maintaining good stability
over the required temperature range.
Recommended Circuits
Figure 14 shows a good circuit for DC and low-frequen-
cy use. The MAX400 has very low offset (10μV) and
drift (0.2μV/°C), and low voltage noise (10nV/
Hz) as
well. However, its gain-bandwidth product (GBW) is
much too low to drive AIN directly, so the analog input
is bypassed to present a low impedance at high fre-
quencies. The large bypass capacitor is isolated from
the amplifier output by a 100
resistor, which provides
additional noise filtering. Since the ±15V supplies
exceed the AIN range, add protection diodes at AIN.
Figure 15 shows a wide-bandwidth amplifier (MAX427)
driving a wideband video buffer, which is capable of dri-
ving AIN and a small bypass capacitor (for noise reduc-
tion) directly. The video buffer is inside the MAX427’s
feedback loop, providing good DC accuracy, while the
buffer’s low output impedance and high current capabil-
ity provide good AC performance. AIN is diode-
clamped to the ±5V rails to prevent overvoltage. The
MAX427’s 15μV maximum offset voltage, 0.8μV/°C maxi-
mum drift, and less than 5nV/
Hz noise specifications
make this an excellent choice for AC/DC use.
If ±15V supplies are unavailable, Figure 16’s circuit works
very well with the ±5V analog supplies used by the
MAX194. The MAX410 has a minimum ±3.5V common-
mode input range, with a similar output voltage swing,
which allows use of a reference voltage to 3.5V. The offset
voltage (250μV), drift (1μV/°C), unity-gain bandwidth
(28MHz), and low voltage noise (2.4nV/
Hz) are appropri-
ate for 14-bit performance. The 0.01μF bypass capacitor
improves the noise performance.
Operating Modes and S PI/QS PI Interfac es
The two basic interface modes are defined according
to whether serial data is received during the conversion
(clocked with CLK, SCLK unused) or in bursts between
conversions (clocked with SCLK). Each mode is pre-
sented interfaced to a QSPI processor, but is also com-
patible with SPI.
Mode 1 (Simultaneous
Conversion and Data Transfer)
In this mode, each data bit is read from the MAX194 dur-
ing the conversion as it is determined. SCLK is grounded
and CLK is used as both the conversion clock and the
serial data clock. Figure 17 shows a QSPI processor
connected to the MAX194 for use in this mode and
Figure 18 is the associated timing diagram.
In addition to the standard QSPI interface signals, gener-
al I/O lines are used to monitor EOC and to drive
BP/UP/SHDN and RESET. The two general output pins
may not be necessary for a given application and, if I/O
lines are unavailable, the EOC connection can be omit-
ted as well.
The EOC signal is monitored during calibration to
determine when calibration is finished and before
beginning a conversion to ensure the MAX194 is not in
mid-conversion, but it is possible for a system to ignore
EOC completely. On power-up or after pulsing RESET
low, the μP must provide 14,000 CLK cycles to com-
plete the calibration sequence (Figure 2). One way to
do this is to toggle CLK and monitor EOC until it goes
low, but it is possible to simply count 14,000 CLK
cycles to complete the calibration. Similarly, it is
unnecessary to check the status of EOC before begin-
ning a conversion if you are sure the last conversion is
complete. This can be done by ensuring that every
conversion consists of at least 20 CLK cycles.
14-Bit, 85ksps ADC with 10μA S hutdown
16
______________________________________________________________________________________
MAX194
QSPI
GPT
BP/UP/SHDN
CLK
SCLK
EOC
DOUT
RESET
CONV
CS
*OC3
SCK
*IC1
MISO
*OC2
* THE USE OF THESE SIGNALS ADDS FLEXIBILITY AND FUNCTIONALITY
BUT IS NOT REQUIRED TOIMPLEMENT THE INTERFACE.
PCS0
Figure 17. MAX194 Connection to QSPI Processor Clocking
Data Out During Conversions
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