SPT7937SIR 查看數據表(PDF) - Signal Processing Technologies
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SPT7937SIR Datasheet PDF : 11 Pages
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OPERATING DESCRIPTION
The general architecture for the CMOS ADC is shown in the
block diagram. The design contains 18 identical successive
approximation ADC sections (all operating in parallel), an
18-phase clock generator, a 13-bit 18:1 digital output multi-
plexer, correction logic, and a voltage reference generator
which provides common reference levels for each ADC
section.
The high sample rate is achieved by using multiple SAR
ADC sections in parallel, each of which samples the input
signal in sequence. Each ADC uses 18 clock cycles to
complete a conversion. The clock cycles are allocated as
follows:
Table II – Clock Cycles
Clock
1
2
3
4
5-17
18
Operation
Reference zero sampling
Auto-zero comparison
Auto-calibrate comparison
Input sample
13-bit SAR conversion
Data transfer
The 18-phase clock, which is derived from the input clock,
synchronizes these events. The timing signals for adjacent
ADC sections are shifted by one clock cycle so that the ana-
log input is sampled on every cycle of the input clock by ex-
actly one ADC section. After 18 clock periods, the timing
cycle repeats. The latency from analog input sample to the
corresponding digital output is 14 clock cycles.
• Since only 18 comparators are used, a huge power sav-
ings is realized.
• The auto-zero operation is done using a closed loop
system that uses multiple samples of the comparator’s
response to a reference zero.
• The auto-calibrate operation, which calibrates the gain
of the MSB reference and the LSB reference, is also
done with a closed loop system. Multiple samples of
the gain error are integrated to produce a calibration volt-
age for each ADC section.
• Capacitive displacement currents, which can induce sam-
pling error, are minimized since only one comparator
samples the input during a clock cycle.
• The total input capacitance is very low since sections of
the converter which are not sampling the signal are iso-
lated from the input by transmission gates.
VOLTAGE REFERENCE
The SPT7937 requires the use of a single external voltage
reference for driving the high side of the reference ladder. It
must be within the range of 3 V to 5 V. The lower side of the
ladder is typically tied to AGND (0.0 V), but can be run up to
2.0 V with a second reference. The analog input voltage full-
scale range will track the total voltage difference measured
between the ladder sense lines, VRHS and VRLS. For opti-
mum performance the full-scale voltage range (VRHS–VRLS)
should be between 3 V to 5 V.
Force and sense taps are provided to ensure accurate and
stable setting of the upper and lower ladder sense line volt-
ages across part-to-part and temperature variations. By
using the configuration shown in figure 3, offset and gain
errors of less than ±2 LSB can be obtained.
Figure 3 – Ladder Force/Sense Circuit
1 AGND
+
–
2 VRHF
3 VRHS
4 N/C
5 VRLS
–
+
6 VRLF
7 VIN
All capacitors are 0.01 µF
SPT
7
SPT7937
1/14/00
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