71M6531D Datasheet, PDF(48/115 Page) Teridian Semiconductor Corporation

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71M6531D Datasheet, PDF (48/115 Pages) Teridian Semiconductor Corporation – Energy Meter IC

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Data Sheet 71M6531D/F-71M6532D/F

FDS 6531/6532 005

Status

Bit

Name

Read/

Write

Reset

State

Polarity

Description

3:0 CMD[3:0] W

0000 Positive

CMD[3:0]

0000

0010

0011

0101

0110

1001

Others

Operation

No-op command. Stops the I2C

clock (SCK, DIO4). If not issued,

SCK keeps toggling.

Receive a byte from the EEPROM

and send ACK.

Transmit a byte to the EEPROM.

Issue a STOP sequence.

Receive the last byte from the

EEPROM and do not send ACK.

Issue a START sequence.

No operation, set the ERROR bit.

The EEPROM interface can also be operated by controlling the DIO4 and DIO5 pins directly. In

this case, a resistor has to be used in series with SDA to avoid data collisions due to limits in the

speed at which the SDA pin can be switched from output to input. Controlling DIO4 and DIO5 di-

rectly is discouraged, because it may tie up the MPU to the point where it may become too busy to pro-

cess interrupts.

Three-Wire (Âµ-Wire) EEPROM Interface

A 500 kHz three-wire interface, using SDATA, SCK and a DIO pin for CS is available. The interface is

selected by setting DIO_EEX = 2 (b10). The EECTRL bits when the three-wire interface is selected are

shown in Table 44. When EECTRL is written, up to 8 bits from EEDATA are either written to the EEPROM

or read from the EEPROM, depending on the values of the EECTRL bits.

The Âµ-Wire EEPROM interface is only functional when MPU_DIV[2:0] = 000.

Table 44: EECTRL Bits for the 3-Wire Interface

Control

Bit

3:0

Name

WFR

Read/

Write

BUSY

HiZ

CNT[3:0] W

Description

Wait for Ready. If this bit is set, the trailing edge of BUSY will be de-

layed until a rising edge is seen on the data line. This bit can be used

during the last byte of a Write command to cause the INT5 interrupt to

occur when the EEPROM has finished its internal write sequence. This

bit is ignored if HiZ = 0.

Asserted while the serial data bus is busy. When the BUSY bit falls, an

INT5 interrupt occurs.

Indicates that the SD signal is to be floated to high impedance immedi-

ately after the last SCK rising edge.

Indicates that EEDATA is to be filled with data from EEPROM.

Specifies the number of clocks to be issued. Allowed values are 0

through 8. If RD=1, CNT bits of data will be read MSB first and right

justified into the low order bits of EEDATA. If RD=0, CNT bits will be

sent MSB first to the EEPROM, shifted out of the MSB of EEDATA. If

CNT[3:0] is zero, SDATA will simply obey the HiZ bit.

The timing diagrams in Figure 11 through Figure 15 describe the 3-wire EEPROM interface behavior. All

commands begin when the EECTRL register is written. Transactions start by first raising the DIO pin that

is connected to CS. Multiple 8-bit or less commands such as those shown in Figure 11 through Figure 15

are then sent via EECTRL and EEDATA.

v1.2

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