FDS 6531/6532 005
Data Sheet 71M6531D/F-71M6532D/F
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Apply proper values to SLOTn_SEL and SLOTn_ALTSEL.
Set CHOP_E = 00.
Initialize any MPU interrupts, such as CE_BUSY, XFER_BUSY, or a power failure detection interrupt.
Typically, there are thirteen 32768 Hz cycles per ADC multiplexer frame (see Figure 19). This means that
the product of the number of cycles per frame and the number of conversions per frame must be 12 (al-
lowing for one settling cycle).
During operation, CHOP_E = 00 enables the automatic chopping mode and forces an alternate multiplex-
er sequence at regular intervals. This enables accurate temperature measurement.
4.3.5 CE Calculations
Table 50: CE EQU Equations and Element Input Mapping
Element Input Mapping
Watt & VAR Formula
EQU
W0SUM/
W1SUM/
(WSUM/VARSUM)
I0SQSUM
I1SQSUM
VAR0SUM
VAR1SUM
VA IA (1 element, 2W 1φ)
0
1
2
VA*IA
VA*(IA-IB)/2
VA*IA
VA*IB
(VA * IB)/2
VB*IB
IA
IA-IB
IA
IB
IB
IB
with tamper detection
VA*(IA-IB)/2
(1 element, 3W 1φ)
VA*IA + VB*IB
(2 element, 4W 2φ)
4.3.6 CE Status and Control
The CESTATUS register provides information about the status of voltage and input AC signal frequency,
which are useful for generating early power fail warnings, e.g. to initiate necessary data storage. It con-
tains sag warning flags for VA and VB as well as F0, the derived clock operating at the fundamental input
frequency. CESTATUS represents the status flags for the preceding CE code pass (CE busy interrupt).
Sag alarms are not remembered from one code pass to the next. The CE Status word is refreshed at
every CE_BUSY interrupt. The significance of the bits in CESTATUS is shown in Table 51.
CE Address
Name
Description
0x80
CESTATUS
See description of CESTATUS bits in Table 51.
Since the CE_BUSY interrupt typically occurs at 2520.6 Hz, it is desirable to minimize the computation
required in the interrupt handler of the MPU. Rather than reading the CE status word at every CE_BUSY
interrupt and interpret the sag bits, it is recommended that the MPU activate the YPULSE output to gen-
erate interrupts when a sag occurs (see the description of the CECONFIG register)
Table 51: CESTATUS Bit Definitions
CESTATUS
Name
Description
These unused bits will always be zero.
[bit]
31:29
28
Not Used
F0
F0 is a square wave at the exact fundamental input frequency.
27
Reserved
SAG_B
26
Normally zero. Becomes one when VB remains below SAG_THR for
SAG_CNT samples. Will not return to zero until VB rises above SAG_THR.
25
SAG_A
Normally zero. Becomes one when VA remains below SAG_THR for
SAG_CNT samples. Will not return to zero until VA rises above SAG_THR.
24:0
Not Used
These unused bits will always be zero.
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