CS5520-BSZ Просмотр технического описания (PDF) - Cirrus Logic
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CS5520-BSZ Datasheet PDF : 41 Pages
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CS5516, CS5520
quencies are possible but may introduce a jitter
component in the BX output signals. It is de-
sirable not to choose an excitation frequency
where interference components are present,
such as 50 Hz or 60 Hz or their harmonics. The
XIN frequency can be divided down using a
counter IC external to the A/D converter. Fexc
would be input to the BX1 pin of the converter
to synchronize the internal operations of the am-
plifiers and synchronous detection circuitry and
to generate a clock output from the BX2 pin.
The BX2 output is then used to drive the bridge
amplifier with a signal of proper phase for detec-
tion by the converter. Figure 8 indicates the
necessary phase of the signals to ensure proper
demodulation.
BX1 (In)
t dd
BX2 (Out)
Demod Clock
(Internal)
Note: The signals from the bridge into AIN+ and
VREF+ of the converter must be in phase
with the demodulation clock.
t dd ≤ 64/XIN
Figure 8. External Excitation Clock Phasing
Whenever the dynamic excitation clock output
from either the BX1 and BX2 pins (during inter-
nal excitation) or from the BX2 pin (during
external excitation) changes states, the converter
waits 64 XIN cycles before sampling the AIN
and VREF signal inputs. The delay allows some
time for the signal to settle from the modulation
event.
Input Filtering
Some load cells are located a distance from the
input to the converter. Under these conditions,
separate twisted pair cabling is recommended for
the excitation drive to the bridge, the excitation
sense leads (if used), and for the AIN±/ΑΙΝ−
signal leads. If the AIN+/AIN- leads to the con-
DS74F21
verter and the VREF+/VREF- leads to the con-
verter are filtered, care should be exercised in
the choice of components. With either dc or ac
excitation, one should limit any input filtering
resistors on AIN to below 1 kΩ. Values greater
than this will degrade noise performance of the
converter. In ac excitation applications, any fil-
tering must be broadband enough that the
switched dc excitation signal can settle within 10
µsecs. Failure to meet this settling requirement
will affect measurement accuracy. Figure 9 illus-
trates acceptable filter components for ac
excitation. If only differential filtering is re-
quired, a single capacitor can be placed between
AIN+ and AIN- (and VREF+ and VREF-) in
place of two capacitors to ground.
7.5k
EXC+
5k
7.5k
EXC-
300
AIN+
470 pF
VREF+
470 pF
0.0047 µF
VREF- CS5516
or
AIN+ CS5520
300
AIN-
0.0047 µF
AIN-
Figure 9. AIN and VREF Input Filter Components
Voltage Reference Considerations
The CS5516/20 include an on-chip voltage refer-
ence which is output on the MDRV- and
referenced from the MDRV+ pin. The converter
is designed to be operated as a ratiometric meas-
urement device. The 2-channel delta-sigma
converter uses the internal MDVR (Modulator
Differential Voltage Reference) as its reference.
Since the MDVR is used for converting both the
AIN and VREF signals at the same time, the ab-
solute value of the MDVR and its tempco are
not important when the CS5516/20 is used in the
ratiometric measurement mode. The voltage ref-
erence output, MDVR-, should be decoupled
using a 1 µF capacitor which is connected to the
MDRV+ supply line. Voltage reference decou-
23
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