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ADC10064CIWM Datenblatt(PDF) 10 Page - National Semiconductor (TI)

[Old version datasheet] Texas Instruments acquired National semiconductor.
Teilenummer ADC10064CIWM
Bauteilbeschribung  10-Bit 600 ns A/D Converter with Input Multiplexer and Sample/Hold
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Hersteller  NSC [National Semiconductor (TI)]
Direct Link  http://www.national.com
Logo NSC - National Semiconductor (TI)

ADC10064CIWM Datenblatt(HTML) 10 Page - National Semiconductor (TI)

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Applications Information (Continued)
Mode 1
In this mode, the S/H pin controls the start of conversion. S/H
is pulled low for a minimum of 250 ns. This causes the
comparators in the “coarse” flash converter to become ac-
tive. When S/H goes high, the result of the coarse conver-
sion is latched and the “fine” conversion begins. After 600 ns
(typical), INT goes low, indicating that the conversion results
are latched and can be read by pulling RD low. Note that CS
must be low to enable S/H or RD. CS is internally “ANDed”
with S/H and RD; the input voltage is sampled when CS and
S/H are low, and data is read when CS and RD are low. INT
is reset high on the rising edge of RD.
TABLE 1. Input Multiplexer Programming
ADC10064 (a)
S
1
S
0
Channel
00
V
IN0
01
V
IN1
10
V
IN2
11
V
IN3
ADC10062 (b)
S
0
Channel
0V
IN0
1V
IN1
Mode 2
In Mode 2, also called “RD mode”, the S/H and RD pins are
tied together. A conversion is initiated by pulling both pins
low. The A/D converter samples the input voltage and
causes the coarse comparators to become active. An inter-
nal timer then terminates the coarse conversion and begins
the fine conversion. 850 ns (typical) after S/H and RD are
pull low, INT goes low, indicating that the conversion is
completed. Approximately 20 ns later the data appearing on
the TRI-STATE output pins will be valid. Note that data will
appear on these pins throughout the conversion, but until
INT goes low the data at the output pins will be the result of
the previous conversion.
2.0 REFERENCE CONSIDERATIONS
The ADC10061, ADC10062, and ADC10064 each have two
reference inputs. These inputs, V
REF+ and VREF−, are fully
differential and define the zero to full-scale range of the input
signal. The reference inputs can be connected to span the
entire supply voltage range (V
REF− =0V, VREF+ =VCC) for
ratiometric applications, or they can be connected to differ-
ent voltages (as long as they are between ground and V
CC)
when other input spans are required. Reducing the overall
V
REF span to less than 5V increases the sensitivity of the
converter (e.g., if V
REF = 2V, then 1 LSB = 1.953 mV). Note,
however, that linearity and offset errors become larger when
lower reference voltages are used. See the Typical Perfor-
mance Curves for more information. For this reason, refer-
ence voltages less than 2V are not recommended.
In most applications, V
REF− will simply be connected to
ground, but it is often useful to have an input span that is
offset from ground. This situation is easily accommodated by
the
reference
configuration
used
in
the ADC10061,
ADC10062, and ADC10064. V
REF− can be connected to a
voltage other than ground as long as the voltage source
connected to this pin is capable of sinking the converter’s
reference current (12.5 mA Max @ V
REF = 5V). If VREF− is
connected to a voltage other than ground, bypass it with
multiple capacitors.
Since the resistance between the two reference inputs can
be as low as 400
Ω, the voltage source driving the reference
inputs should have low output impedance. Any noise on
either reference input is a potential cause of conversion
errors, so each of these pins must be supplied with a clean,
low noise voltage source. Each reference pin should be
bypassed with a 10 µF tantalum and a 0.1 µF ceramic.
3.0 THE ANALOG INPUT
The ADC10061, ADC10062, and ADC10064 sample the
analog input voltage once every conversion cycle. When this
happens, the input is briefly connected to an impedance
approximately equal to 600
Ω in series with 35 pF.
Short-duration current spikes can therefore be observed at
the analog input during normal operation. These spikes are
normal and do not degrade the converter’s performance.
Large source impedances can slow the charging of the
sampling capacitors and degrade conversion accuracy.
Therefore, only signal sources with output impedances less
than 500
Ω should be used if rated accuracy is to be
achieved at the minimum sample time (250 ns maximum). If
the sampling time is increased, the source impedance can
be larger. If a signal source has a high output impedance, its
output should be buffered with an operational amplifier. The
operational amplifier’s output should be well-behaved when
driving a switched 35 pF/600
Ω load. Any ringing or voltage
shifts at the op amp’s output during the sampling period can
result in conversion errors.
Correct conversion results will be obtained for input voltages
greater than GND − 50 mV and less than V+ + 50 mV. Do not
allow the signal source to drive the analog input pin more
than 300 mV higher than AV
CC and DVCC, or more than
300 mV lower than GND. If an analog input pin is forced
beyond these voltages, the current flowing through the pin
should be limited to 5 mA or less to avoid permanent dam-
age to the IC. The sum of all the overdrive currents into all
pins must be less than 20 mA. When the input signal is
expected to extend more than 300 mV beyond the power
supply limits, some sort of protection scheme should be
used. A simple network using diodes and resistors is shown
in
Figure 4.
www.national.com
10


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