TSA1002CF(2000) データシートの表示(PDF) - STMicroelectronics
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TSA1002CF Datasheet PDF : 19 Pages
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TSA1002
Typically, there is a detection of all the data being
at ’0’ or all the data being at ’1’. This ends up with
an output signal OR which is in low level state
(VOL) when the data stay within the range, or in
high level state (VOH) when the data are out of the
range.
Data Ready (DR)
The Data Ready output is an image of the clock
being synchronized on the output data (D0 to D9).
This is a very helpful signal that simplifies the
synchronization of the measurement equipment or
the controlling DSP.
As digital output, DR goes in high impedance state
when OEB is asserted to High level as described
in the timing diagram.
DRIVING THE ANALOG INPUT
Differential inputs
The TSA1002 has been designed to obtain
optimum performances when being differentially
driven. An RF transformer is a good way to
achieve such performances.
Figure 5 describes the schematics. The input
signal is fed to the primary of the transformer,
while the secondary drives both ADC inputs. The
common mode voltage of the ADC (INCM) is
connected to the center-tap of the secondary of
the transformer in order to bias the input signal
around this common voltage, internally set to
0.56V. The INCM is decoupled to maintain a low
noise level on this node. Our evaluation board is
mounted with a 1:1 ADT1-1 transformer from
Minicircuits. You might also use a higher
impedance ratio (1:2 or 1:4) to reduce the driving
requirement on the analog signal source.
Each analog input can drive a 1Vpp amplitude
input signal, so the resultant differential amplitude
is 2Vpp.
Figure 5 : Differential input configuration
Analog source
ADT1-1
1:1
50Ω
100pF
VIN
TSA1002
VINB
INCM
330pF
10nF 470nF
Single-ended input configuration
Some applications may require a single-ended
input which is easily achieved with the
configuration reported on Figure 6.
In this case, it is recommended to use an
AC-coupled analog input and connect the other
analog input to the common mode voltage of the
circuit (INCM) so as to properly bias the ADC. The
INCM may remain at the same internal level
(0.56V) thus driving only a 1Vpp input amplitude,
or it must be increased to 0.9V to drive a 2Vpp
input amplitude. You will get higher performances
using a 2Vpp signal.
Figure 6 : Single-ended input configuration
Signal source
50Ω
100nF
VIN
TSA1002
VINB
INCM
330pF
10nF 470nF
0.9V
Dynamic characteristics, while not being as
remarkable as for differential configuration, are
still of very good quality. Measurements done at
50Msps, 2MHz input frequency, -1dBFS input
level sum up these performances. An SFDR of
-64.5dBc, a SNR of 57.8dB and an ENOB Full
Scale of 9.3bits are achieved.
REFERENCE CONNECTION
Internal reference
In the standard configuration, the ADC is biased
with the internal reference voltage. VREFM pin is
connected to Analog Ground while VREFP is
internally set to a voltage of 1.03V. It is
recommended to decouple the VREFP in order to
minimize low and high frequency noise. Refer to
Figure 7 for the schematics.
Figure 7 : Internal reference setting
1.03V
330pF
VIN VREFP
TSA1002
VINB
VREFM
10nF 470nF
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