71M6521BE Datasheet, PDF(21/97 Page) Teridian Semiconductor Corporation

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71M6521BE Datasheet, PDF (21/97 Pages) Teridian Semiconductor Corporation – Energy Meter IC

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71M6521BE

Energy Meter IC

DATA SHEET

JANUARY 2008

Port Registers: The I/O ports are controlled by Special Function Registers P0, P1, and P2. The contents of the SFR can be

observed on corresponding pins on the chip. Writing a â1â to any of the ports (see Table 10) causes the corresponding pin to be

at high level (V3P3), and writing a â0â causes the corresponding pin to be held at low level (GND). The data direction registers

DIR0, DIR1, and DIR2 define individual pins as input or output pins (see section Digital I/O for details).

DIR0

DIR1

DIR2

SFR

Address

0x80

0xA2

0x90

0x91

0xA0

0xA1

R/W Description

R/W Register for port 0 read and write operations (pins DIO4â¦DIO7)

R/W Data direction register for port 0. Setting a bit to 1 means that the corresponding pin is

an output.

R/W Register for port 1 read and write operations (pins DIO8â¦DIO11, DIO14â¦DIO15)

R/W Data direction register for port 1.

R/W Register for port 2 read and write operations (pins DIO16â¦DIO17)

R/W Data direction register for port 2.

Table 10: Port Registers

All DIO ports on the chip are bi-directional. Each of them consists of a Latch (SFR âP0â to âP2â), an output driver, and an input

buffer, therefore the MPU can output or read data through any of these ports. Even if a DIO pin is configured as an output, the

state of the pin can still be read by the MPU, for example when counting pulses issued via DIO pins that are under

CE control.

The technique of reading the status of or generating interrupts based on DIO pins configured as outputs, can be

used to implement pulse counting.

Special Function Registers Specific to the 71M6521BE

Table 11 shows the location and description of the 71M6521BE-specific SFRs.

ERASE

PGADDR

EEDATA

EECTRL

Alternative

Name

FLSH_ERASE

FLSH_PGADR

SFR

Address

0x94

0xB7

0x9E

0x9F

R/W

Description

This register is used to initiate either the Flash Mass Erase cycle or

the Flash Page Erase cycle. Specific patterns are expected for

FLSH_ERASE in order to initiate the appropriate Erase cycle (default =

0x00).

0x55 â Initiate Flash Page Erase cycle. Must be preceded by a write

to FLSH_PGADR @ SFR 0xB7.

0xAA â Initiate Flash Mass Erase cycle. Must be preceded by a write

to FLSH_MEEN @ SFR 0xB2 and the debug port must be

enabled.

Any other pattern written to FLSH_ERASE will have no effect.

Flash Page Erase Address register containing the flash memory page

address (page 0 thru 127) that will be erased during the Page Erase

cycle (default = 0x00).

Must be re-written for each new Page Erase cycle.

I2C EEPROM interface data register

I2C EEPROM interface control register. If the MPU wishes to write a

byte of data to EEPROM, it places the data in EEDATA and then

writes the âTransmitâ code to EECTRL. The write to EECTRL initiates

the transmit sequence. See the EEPROM Interface section for a

description of the command and status bits available for EECTRL.

V1.0

Page: 21 of 97

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