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ADCV08832CIM Folha de dados(PDF) 10 Page - National Semiconductor (TI)

[Old version datasheet] Texas Instruments acquired National semiconductor.
Nome de Peças ADCV08832CIM
Descrição Electrónicos  Low Voltage, 8-Bit Serial I/O CMOS A/D Converter with Sample/Hold Function
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Fabricante Electrônico  NSC [National Semiconductor (TI)]
Página de início  http://www.national.com
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ADCV08832CIM Folha de dados(HTML) 10 Page - National Semiconductor (TI)

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Functional Description (Continued)
5.
During the conversion, the output of the SAR compara-
tor indicates whether the successive analog input is
greater than (high) or less than (low) a series of voltages
generated internally from a ratioed capacitor array (first
5 bits) and a resistor ladder (last 3 bits). After each
comparison, the output of the comparator is clocked to
DO on the falling edge of CLK.
6.
After 8 clock periods the successive approximation rou-
tine is completed.
7.
Next, the stored data in the successive approximation
register is loaded into an internal shift register and
shifted out LSB first. The DO line then goes low until CS
is returned high.
8.
The DI and DO lines may be tied together and controlled
through a bi-directional processor I/O bit with one wire.
This is possible because the DI input is valid only during
the MUX addressing interval, while the DO line is still in
a high impedance state.
3.0 Reducing Power Consumption
At 3.3V supply, the ADCV08832 consumes about 330 µA
when CS is logic low. When CS is pulled high the device will
enter a low power mode to minimize total power consump-
tion.
In low power mode some analog circuitry and digital logic are
put in a static, low power condition. Also, DO, the output
driver is taken into a TRI-STATE mode.
To optimize static power consumption, special attention must
be given to the digital input logic signals: CLK, CS, DI. Each
digital input has a large CMOS buffer between V
CC and
GND. A traditional TTL level high (2.4V) will be sufficient for
each input to read a logical “1”. However, there could be a
large V
IH to VCC voltage difference at each input. Such a
voltage difference would cause excessive static power dis-
sipation, even when CS is high and the part is low power
mode.
Therefore, to minimize the static power dissipation, it is
recommended that all digital logic levels should equal the
converter’s supply. Various CMOS logic is particularly well
suited for this application.
4.0 THE ANALOG INPUTS
The most important feature of the ADCV08832 is that it can
be located right at the analog signal source and through just
a few wires can communicate with a controlling processor.
This in itself greatly minimizes circuitry to maintain analog
signal accuracy which otherwise is most susceptible to noise
pickup. However, the following must be considered for situ-
ations in which the analog input sources are noisy or riding
on a large common-mode voltage.
In a true differential input stage, any signal that is common to
both “+” and “-” inputs is cancelled. For the ADCV08832 the
positive input of a selected channel pair is only sampled
once before the start of a conversion during the acquisition
time (t
ca). The negative input needs to be stable during the
complete conversion sequence because it is sampled before
every decision in the SAR sequence. Therefore, any AC
common-mode signal present on the analog inputs will not
be completely cancelled and will cause some conversion
errors. The linear worse case approximation of a common
mode sinusoidal signal error is:
V
error(MAX) = VPEAK (2πfCM)(tconv)
Where f
CM is the frequency of the common-mode signal,
V
PEAK is its peak voltage value, and tconv is the A/D’s con-
version time (t
conv = 13/fCLK).
For a 60 Hz common-mode signal to generate a 14 LSB error
(5 mV) with the converter running at 500 kHz, its peak value
would have to be 0.328V.
4.1 Sample and Hold
The ADCV08832 provides a built-in sample-and-hold to ac-
quire the input signal. The sample and hold can sample input
signals in either single-ended or pseudo differential mode.
4.2 Input Op Amps
When driving the analog inputs with an op amp it is important
that the op amp settle within the allowed time. To achieve the
full sampling rate, the analog input should be driven with a
low impedance source (100
Ω) or a high-speed op amp such
as the LM6142. Higher impedance sources or slower op
amps can easily be accommodated by allowing more time
for the analog input to settle.
4.3 Source Resistance
The analog inputs of the ADCV08832 appears as a 13 pF
capacitor (C
IN) in series with a 300Ω resistor (RON). CIN gets
switched between the selected “+” and “-” inputs during each
conversion cycle. Large external source resistors will slow
the settling of the inputs. It is important that the overall RC
time constants be short enough to allow the analog input to
completely settle.
4.4 Board Layout Considerations, Grounding and
Bypassing
The ADCV08832 should be used with an analog ground
plane and single-point grounding techniques. The GND pin
should be tied directly to the ground plane.
The supply pin should be bypassed to the ground plane with
a ceramic capacitor with leads as short as possible in single
ended mode. All analog inputs should be referenced directly
to the single-point ground.
5.0 OPTIONAL ADJUSTMENTS
5.1 Zero Error
The offset of the A/D does not require adjustment. If the
minimum analog input voltage value, V
IN(MIN), is not ground
a zero offset can be done. In differential mode the converter
can be made to output 0000 0000 digital code for this
minimum input voltage by biasing any V
IN(−) input at this
V
IN(MIN) value.
The zero error of the A/D converter relates to the location of
the first riser of the transfer function and can be measured by
grounding the V
IN(−) input and applying a small magnitude
positive voltage to the V
IN(+) input. Zero error is the differ-
ence between the actual DC input voltage which is neces-
sary to just cause an output digital code transition from 0000
0000 to 0000 0001 and the ideal 12 LSB value (12 LSB =
6.4 mV).
6.0 DYNAMIC PERFORMANCE
Dynamic performance specifications are often useful in ap-
plications requiring waveform sampling and digitization.
Typically, a memory buffer is used to capture a stream of
consecutive digital outputs for post processing. Capturing a
number of samples that is a power of 2 (ie, 1024, 2048,
4096) allows the Fast Fourier Transform (FFT) to be used to
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