HI5767EVAL2 Intersil, HI5767EVAL2 Datasheet - Page 14
HI5767EVAL2
Manufacturer Part Number
HI5767EVAL2
Description
EVALUATION PLATFORM HI5767
Manufacturer
Intersil
Specifications of HI5767EVAL2
Number Of Adc's
1
Number Of Bits
10
Sampling Rate (per Second)
60M
Data Interface
Parallel
Inputs Per Adc
1 Differential
Input Range
1 Vpp
Power (typ) @ Conditions
310mW @ 60MSPS
Voltage Supply Source
Analog and Digital
Operating Temperature
-40°C ~ 85°C
Utilized Ic / Part
HI5767
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Appendix D HI5767 Theory of Operation
The HI5767 is a 10-bit fully differential sampling pipeline A/D
converter with digital error correction logic. Figure 10 depicts
the circuit for the front end differential-in-differential-out
sample-and-hold (S/H). The switches are controlled by an
internal sampling clock which is a non-overlapping two phase
signal
During the sampling phase,
the sampling capacitors, C
capacitors, C
edge of
the sampling capacitors. In the next clock phase,
bottom plates of the sampling capacitors are connected
together and the holding capacitors are switched to the op
amp output nodes. The charge then redistributes between C
and C
sample-and-hold output is a fully-differential, sampled-data
representation of the analog input. The circuit not only
performs the sample-and-hold function but will also convert a
single-ended input to a fully-differential output for the
converter core. During the sampling phase, the V
only the on-resistance of a switch and C
values of these components result in a typical full power input
bandwidth of 250MHz for the converter.
As illustrated in the functional block diagram, eight identical
pipeline subconverter stages, each containing a two-bit flash
converter and a two-bit multiplying digital-to-analog
converter, follow the S/H circuit with the ninth stage being a
two bit flash converter. Each converter stage in the pipeline
will be sampling in one phase and amplifying in the other
clock phase. Each individual subconverter clock signal is
offset by 180 degrees from the previous stage clock signal
resulting in alternate stages in the pipeline performing the
same operation.
The output of each of the eight identical two-bit subconverter
stages is a two-bit digital word containing a supplementary bit
to be used by the digital error correction logic. The output of
each subconverter stage is input to a digital delay line which is
controlled by the internal sampling clock. The function of the
digital delay line is to time align the digital outputs of the eight
identical two-bit subconverter stages with the corresponding
output of the ninth stage flash converter before applying the
eighteen bit result to the digital error correction logic. The
digital error correction logic uses the supplementary bits to
correct any error that may exist before generating the final ten
bit digital data output of the converter.
Because of the pipeline nature of this converter, the digital
data representing an analog input sample is output to the
digital data bus on the 7th cycle of the clock after the analog
sample is taken. This time delay is specified as the data
latency. After the data latency time, the digital data
representing each succeeding analog sample is output
during the following clock cycle. The digital output data is
synchronized to the external sampling clock by a double
H
completing one sample-and-hold cycle. The front end
1
1
and
the input signal is sampled on the bottom plates of
H
, are discharged to analog ground. At the falling
2
, derived from the master sampling clock.
S
3-14
. At the same time the holding
1
, the input signal is applied to
S
. The relatively small
IN
Application Note 9762
2
, the two
pins see
S
buffered latching technique. The digital output data is
available in two’s complement or offset binary format
depending on the state of the Data Format Select (DFS)
control input.
Internal Reference Voltage Output, V
The HI5767 is equipped with an internal reference voltage
generator, therefore, no external reference voltage is
required. V
using the internal reference voltage.
An internal band-gap reference voltage followed by an
amplifier/buffer generates the precision +2.5V reference
voltage used by the converter. A 4:1 array of substrate
PNPs generates the “delta-V
closes the loop to create an internal +1.25V band-gap
reference voltage. This voltage is then amplified by a wide-
band uncompensated operational amplifier connected in a
gain-of-two configuration. An external, user-supplied,
0.1 F capacitor connected from the V
analog ground is used to set the dominant pole and to
maintain the stability of the operational amplifier.
Reference Voltage Input, V
The HI5767 is designed to accept a +2.5V reference
voltage source at the V
the converter requires V
HI5767 is tested with V
yielding a fully differential analog input voltage range of
The user does have the option of supplying an external
+2.5V reference voltage. As a result of the high input
impedance presented at the V
typically, the external reference voltage being used is only
required to source 1mA of reference input current. In the
situation where an external reference voltage will be used
an external 0.1 F capacitor must be connected from the
V
the stability of the internal operational amplifier.
In order to minimize overall converter noise it is
recommended that adequate high frequency decoupling be
provided at the reference voltage input pin, V
0.5V.
REFOUT
FIGURE 10. ANALOG INPUT SAMPLE-AND-HOLD
V
V
IN
IN
+
-
output pin to analog ground in order to maintain
REFOUT
1
1
2
C
C
must be connected to V
S
S
REF IN
1
REFIN
REFIN
1
BE
input pin. Typical operation of
connected to V
REFIN
REFIN
to be set at +2.5V. The
+
-
” and a two-stage op amp
C
C
H
H
input pin, 2.5k
REFOUT
1
REFOUT
REFIN
1
REFOUT
REFIN
output pin to
V
V
OUT
OUT
when
.
+
-
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