STPMC1 ST Microelectronics, STPMC1 Datasheet - Page 52

STPMC1

Manufacturer Part Number

STPMC1

Description

Programmable poly-phase energy calculator IC

Manufacturer

ST Microelectronics

Datasheet

1.STPMC1.pdf (76 pages)

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Theory of operation

Table 30.

9.19

52/76

Bit

Name

SIGN

LOW

NAH

BCF

BFR

ZRC

BIL

LIN

X-phase status bits description

There is no differences between status register of x phase in DAx, DRx, DFx, except for first

bit of status register [0] BIL . This bit indicates no-load condition.

In DAx status register bit BIL is represents NLC for phase X active energy.

In DRx status register bit BIL is represents NLC for phase X reactive energy.

In DFx status register bit BIL is represents NLC for phase X fundamental energy.

In standalone operating mode the 3-ph BIL signal is available on SCLNLC pin, 3-ph SIGN in

the SYN pin and Tamper flag (is the OR of all tamper conditions - see paragraph

SDATD pin. All the other signals can be read only through SPI interface.

When STPMC1 is used in peripheral mode all these signals can be read through the SPI

interface. See paragraph

records.

Configuration bits map

As indicated in the data records map (see paragraph

configuration bits (CFG data records). Each of them consists of paired elements, one is the

latch (the OTP shadow), and the other is the OTP antifuse element. In this way all the

configuration bits that control the operation of the device can be written in a temporary or

permanent way.

In case of temporary writing the configuration bits values are written in the so-called shadow

registers, which are simple latches that hold the configuration data. The shadow registers

are cleared whenever a reset condition occurs (both POR and remote reset).

In case of permanent writing the configuration bits are stored in the OTP (one time

programmable) cells that keep the information permanently even if the STPMC1 is without

supply, but, once written, they cannot be changed anymore. That's why the CFG are used to

keep critical informations like configuration and calibration values of device. When the

STPMC1 is released all antifuses presents low logic state.

Xmax

No-load Condition not detected

Frequency of phase voltage is in range

Active energy is negative

Phase 0

After zero crossing

Single Wire Meter mode

= 2

> I

> U

signals alive

Xmax

/4096 and BFR==1

u <

/ 16

9.18

Doc ID 15728 Rev 1

for details on the Status bit location in the STPMC1 data

No-load condition detected

One or both

Frequency of line voltage is out of range or voltage

amplitude is below threshold (LOW = 1)

Active energy is positive

Phase

After max value crossing

Normal operation mode

BFR==0 or I

< U

Xmax

u < 2

9.17

/ 32

< I

), the STPMC1 has 112

signal stuck

Xmax

/ 8192 and BFR==1

9.10

STPMC1

) in

STPMC1 ST Microelectronics, STPMC1 Datasheet - Page 52

STPMC1

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