User Manual

1
Copyright Cirrus Logic, Inc. 2001
(All Rights Reserved)
P.O. Box 17847, Austin, Texas 78760
(512) 445 7222 FAX: (512) 445 7581
http://www.cirrus.com
AN202
Application Note
TECHNICAL CONSIDERATIONS FOR MIGRATING
CS5460-BASED DESIGN TO CS5460A-BASED DESIGN
1. INTRODUCTION
This application note briefly describes several
minor functional differences between the CS5460
and the CS5460A. These functional differences
may need to be considered by a designer when
attempting to use the CS5460A as a drop-in
replacement for the CS5460 (in a CS5460-based
design). The CS5460 and CS5460A are pin-to-pin
compatible devices, manufactured in the same
SSOP package. Under default operating conditions
(just after initial power on), the CS5460A is
functionally equivalent to the CS5460, with the
exception of the functional differences listed in this
document. Any adjustments that may need to be
made to a CS5460-based design, in order to
accommodate CS5460A as a drop-in replacement
for CS5460, are usually very minor. In most cases,
no adjustments will be necessary at all. For more
detailed information about these functional
differences, e-mail customer support at:
powermeter@crystal.cirrus.com.
2. SUMMARY OF DIFFERENCES
1) Frequency of pulses issued from the EOUT and
EDIR pins, during a “burst” of output pulses, is
twice the frequency of the pulse burst
frequency of the CS5460.
2) Pulse duration of the pulses issued from the
EOUT and EDIR pins, during a “burst” of
output pulses, is ½ of CS5460’s pulse duration
(for a given Pulse-Rate Register setting).
3) The “B2” bit position, in the 8-bit Calibration
Command, could be set to either logic “1” or
logic “0” in the CS5460, with no change in the
calibration sequence that is to be executed. In
the CS5460A, this bit setting is relevant to the
particular type of calibration sequence that will
be executed.
4) The “RMS Overflow” Error that existed in the
CS5460 does not exist in the CS5460A.
Therefore, the designer can (if desired) often
increase the accuracy and/or linearity and/or
dynamic range available for the voltage,
current, power, energy results, if provisions had
specifically been made in the original CS5460
design to avoid the RMS Overflow situation.
However, such a revision is not mandatory.
5) Pin #8 of the CS5460 has no functionality, but
pin #8 does have functionality on the
CS5460A. If the designer left pin #8 as a “No
Connect” or if pin #8 was grounded in the
original CS5460-based design, then no circuit
change is necessary when replacing CS5460
with CS5460A.
6) For both the CS5460 and CS5460A, there is a
slight time shift imposed between the voltage
and current waveforms, due to the A/D
conversion process. In the CS5460, the
effective time shift imposed on the input
voltage signal (with respect to the input current
signal) is ~9.3 µs when the phase compensation
bits (PC bits) are at the default setting of
0000. In the CS5460A, this time shift is
reduced to ~1.0 µs when the PC bits are at the
default setting of 0000000. Also, as the
reader can see, the number of PC bits has
changed from 4 to 7. Also, the amount of time
shift per PC bit was changed to ~1.85 µs per bit.
APR ‘01
AN202REV1

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