AD10465 データシートの表示(PDF) - Analog Devices
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AD10465
Analog Devices
AD10465 Datasheet PDF : 20 Pages
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AVIN3
AVIN2
AVIN1
200⍀
100⍀
TO AD8037
100⍀
Figure 2. Analog Input Stage
DVCC
CURRENT MIRROR
AD10465
VREF
DVCC
DR OUT
ENCODE
AVCC
AVCC
10k⍀
10k⍀
LOADS
AVCC
10k⍀
AVCC
ENCODE
10k⍀
LOADS
Figure 3. ENCODE Inputs
THEORY OF OPERATION
The AD10465 is a high dynamic range 14-bit, 65 MHz pipeline
delay (three pipelines) analog-to-digital converter. The custom
analog input section maintains the same input ranges (1 V p-p,
2 V p-p, and 4 V p-p) and input impedance (100 Ω, 200 Ω, and
400 Ω) as the AD10242.
The AD10465 employs four monolithic ADI components per
channel (AD8037, AD8138, AD8031, and AD6644), along with
multiple passive resistor networks and decoupling capacitors to
fully integrate a complete 14-bit analog-to-digital converter.
The input signal is passed through a precision laser-trimmed
resistor divider allowing the user to externally select operation
with a full-scale signal of ± 0.5 V, ± 1.0 V or ± 2.0 V by choosing
the proper input terminal for the application.
The AD10465 analog input includes an AD8037 amplifier
featuring an innovative architecture that maximizes the dynamic
range capability on the amplifiers inputs and outputs. The AD8037
amplifier provides a high input impedance and gain for driving
the AD8138 in a single-ended to differential amplifier configu-
ration. The AD8138 has a –3 dB bandwidth at 300 MHz and
delivers a differential signal with the lowest harmonic distortion
available in a differential amplifier. The AD8138 differential
outputs help balance the differential inputs to the AD6644,
maximizing the performance of the ADC.
The AD8031 provides the buffer for the internal reference of
the AD6644. The internal reference voltage of the AD6644 is
designed to track the offsets and drifts of the ADC and is used
to ensure matching over an extended temperature range of
operation. The reference voltage is connected to the output
common mode input on the AD8138. The AD6644 reference
voltage sets the output common-mode on the AD8138 at 2.4 V,
which is the midsupply level for the AD6644.
The AD6644 has complementary analog input pins, AIN and AIN.
Each analog input is centered at 2.4 V and should swing ± 0.55 V
around this reference. Since AIN and AIN are 180 degrees out
of phase, the differential analog input signal is 2.2 V peak-to-peak.
Both analog inputs are buffered prior to the first track-and-hold,
CURRENT MIRROR
Figure 4. Digital Output Stage
DVCC
CURRENT MIRROR
VREF
DVCC
100⍀
D0–D13
CURRENT MIRROR
Figure 5. Digital Output Stage
TH1. The high state of the ENCODE pulse places TH1 in hold
mode. The held value of TH1 is applied to the input of a 5-bit
coarse ADC1. The digital output of ADC1 drives 14 bits of
precision which is achieved through laser trimming. The output
of DAC1 is subtracted from the delayed analog signal at the
input of TH3 to generate a first residue signal. TH2 provides an
analog pipeline delay to compensate for the digital delay of ADC1.
The first residue signal is applied to a second conversion stage
consisting of a 5-bit ADC2, 5-bit DAC2, and pipeline TH4.
The second DAC requires 10 bits of precision which is met by
the process with no trim. The input to TH5 is a second residue
signal generated by subtracting the quantized output of DAC2
from the first residue signal held by TH4. TH5 drives a final
6-bit ADC3.
The digital outputs from ADC1, ADC2, and ADC3 are added
together and corrected in the digital error correction logic to
generate the final output data. The result is a 14-bit parallel
digital CMOS-compatible word, coded as two’s complement.
USING THE FLEXIBLE INPUT
The AD10465 has been designed with the user’s ease of opera-
tion in mind. Multiple input configurations have been included
on board to allow the user a choice of input signal levels and
input impedance. While the standard inputs are ± 0.5 V, ± 1.0 V
and ± 2.0 V, the user can select the input impedance of the
REV. 0
–9–
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