71M6533 Datasheet, PDF(93/124 Page) Teridian Semiconductor Corporation

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71M6533 Datasheet, PDF (93/124 Pages) Teridian Semiconductor Corporation – Energy Meter IC

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FDS_6533_6534_004

71M6533/71M6534 Data Sheet

Name

TEMP FIR data

VBAT FIR data

â¦

Chip ID, Version bytes

â¦

Last Address

0x0A

0x0B

0x0F

0x3FF

Address

MPU

0x28

0x2C

â¦

003C

â¦

0xFFC

Type

Input

Internal

Read

Only

Internal

Description

â¦

Upper 16 bits are zero. Lower 16 bits are

CHIP_ID[15:8], VERSION[7:0]. This word is

read only.

â¦

Last Memory Location

4.3.7 CE Status and Control

The CE Status Word is useful for generating early warnings to the MPU (Table 50). It contains sag warn-

ings for phase A, B, and C, as well as F0, the derived clock operating at the fundamental input frequency.

The MPU can read the CE status word at every CE_BUSY interrupt. Since the CE_BUSY interrupt oc-

curs at 2520.6 Hz, it is desirable to minimize the computation required in the interrupt handler of the MPU.

CE Address

0x80

Name

CESTATUS

Table 50: CESTATUS Register

Description

See description of CESTATUS bits in Table 51.

CESTATUS provides information about the status of voltage and input AC signal frequency, which are use-

ful for generating an early power fail warning to initiate necessary data storage. CESTATUS represents

the status flags for the preceding CE code pass (CE_BUSY interrupt). The significance of the bits in

CESTATUS is shown in Table 51.

CESTATUS

[bit]

31:29

24:0

Name

Not Used

SAG_C

SAG_B

SAG_A

Not Used

Table 51: CESTATUS Bit Definitions

Description

These unused bits will always be zero.

F0 is a square wave at the exact fundamental input frequency.

Normally zero. Becomes one when |VC| remains below SAG_THR for

SAGCNT samples. Will not return to zero until |VC| rises above SAG_THR.

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.

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.

These unused bits will always be zero.

The CE is initialized by the MPU using CECONFIG (Table 52). This register contains in packed form

SAG_CNT, FREQSEL0, FREQSEL1, EXT_PULSE, I0_SHUNT, I1_SHUNT, PULSE_SLOW, and PULSE_FAST.

The CECONFIG bit definitions are given in Table 53.

CE Ad-

dress

0x20

Name

CECONFIG

Table 52: CECONFIG Register

Data

0x5020

Description

See description of the CECONFIG bits in Table 53.

The SAG_MASKn bits enable sag detection for the respective phase when set to 1. When SAG_INT is set

to 1, a sag event will generate a transition on the YPULSE output.

v1.1

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