ADE5569ASTZF62 Analog Devices Inc, ADE5569ASTZF62 Datasheet - Page 83

ADE5569ASTZF62

Manufacturer Part Number

ADE5569ASTZF62

Description

IC METER/8052/RTC/LCD DRV 64LQFP

Manufacturer

Analog Devices Inc

Datasheet

1.ADE5569ASTZF62-RL.pdf (156 pages)

Specifications of ADE5569ASTZF62

Applications

Energy Measurement

Core Processor

8052

Program Memory Type

FLASH (62kB)

Controller Series

ADE55xx

Ram Size

2.25K x 8

Interface

I²C, SPI, UART

Number Of I /o

Voltage - Supply

3.135 V ~ 3.465 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

64-LQFP

Ic Function

Single Phase Energy Measurement IC

Supply Voltage Range

3.13V To 3.46V, 2.4V To 3.7V

Operating Temperature Range

-40Â°C To +85Â°C

Digital Ic Case Style

LQFP

No. Of Pins

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Available stocks

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Quantity

Price

Company:

BOSTOCK HK LIMITED

Part Number:

ADE5569ASTZF62

Manufacturer:

Analog Devices Inc

Quantity:

10 000

Company:

BOSTOCK HK LIMITED

Part Number:

ADE5569ASTZF62-RL

Manufacturer:

Analog Devices Inc

Quantity:

10 000

Current page: 83 of 156
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A useful implementation of the waterline feature is to determine

the amount of space required for the stack and allow a suitable

default starting address to be selected. This optimizes the use

of the additional XRAM space, allowing it to be used for data

storage. To obtain this information, the waterline should be set

to the estimated stack maximum and the interrupt enabled.

If the stack exceeds the estimated maximum, the interrupt is trig-

gered, and the waterline level should be increased in the interrupt

service routine. Before returning to the main program, the

waterline interrupt status flag (WTRLFG, Bit 0) of the stack

boundary SFR (STCON, Address 0xBF) should be cleared. This

program continues to jump to the waterline service routine

until the stack no longer exceeds the waterline level and the

maximum stack level is determined.

STANDARD 8052 SFRS

The standard 8052 SFRs include the accumulator (ACC), B, PSW,

DPTR, and SP SFRs, as described in the Basic 8052 Registers

section. The 8052 also defines standard timers, serial port inter-

faces, interrupts, I/O ports, and power-down modes.

Timer SFRs

The 8052 contains three 16-bit timers, the identical Timer 0 and

Timer 1, as well as a Timer 2. These timers can also function as

event counters. Timer 2 has a capture feature in which the value

of the timer can be captured in two 8-bit registers upon the

assertion of an external input signal (see the Timers section).

Serial Port SFRs

The two full-duplex serial port peripherals each require two

registers: one for setting up the baud rate and other communication

parameters, and another register for the transmit/receive buffer.

The ADE5166/ADE5169/ADE5566/ADE5569 also provide

enhanced serial port functionality with a dedicated timer for

baud rate generation with a fractional divisor and additional

error detec-tion (see the UART Serial Interface section and the

UART2 Serial Interface section.)

0xFF

0x00

Figure 82. Extended Stack Pointer Operation

256 BYTES

OF RAM

(DATA)

0x7FF-STCON[7:3]

{SPH[5:3], 0x00}

0x7FF

0x00

STACK STARTING

ON-CHIP XRAM

WATERLINE

ADDRESS

2kB OF

Rev. C | Page 83 of 156

Interrupt SFR

A two-tiered interrupt system is standard in the 8052 core. The

priority level for each interrupt source is individually select-able

as high or low. The ADE5166/ADE5169/ADE5566/ADE5569

enhance this interrupt system by creating, in essence, a third

interrupt tier for a highest priority power supply management

interrupt, PSM (see the Interrupt System section).

I/O Port SFRs

The 8052 core supports four I/O ports, P0 through P3, where

Port 0 and Port 2 are typically used for access to external code

and data spaces. The ADE5166/ADE5169/ADE5566/ADE5569,

unlike standard 8052 products, provide internal nonvolatile

flash memory so that an external code space is unnecessary.

The on-chip LCD driver requires many pins, some of which are

dedicated for LCD functionality and others that can be configured

as LCD or general-purpose I/O. Due to the limited number of

I/O pins, the ADE5166/ADE5169/ADE5566/ADE5569 do not

allow access to external code and data spaces.

The ADE5166/ADE5169/ADE5566/ADE5569 provide 20 pins

that can be used for general-purpose I/O. These pins are mapped

to Port 0, Port 1, and Port 2 and are accessed through three bit-

addressable 8052 SFRs: P0, P1, and P2. Another enhanced

feature of the ADE5166/ADE5169/ADE5566/ADE5569 is that

the weak pull-ups standard on 8052 Port 1, Port 2, and Port 3

can be disabled to make open-drain outputs, as is standard on

Port 0. The weak pull-ups can be enabled on a pin-by-pin basis

(see the I/O Ports section).

Power Control Register (PCON, Address 0x87)

The 8052 core defines two power-down modes: power-down

and idle. The ADE5166/ADE5169/ADE5566/ADE5569

enhance the power control capability of the traditional 8052

MCU with additional power management functions. The

POWCON SFR (Address 0xC5) is used to define power control

specific functionality for the ADE5166/ADE5169/ADE5566/

ADE5569. The program control SFR (PCON, Address 0x87) is

not bit addressable (see the Power Management section).

The ADE5166/ADE5169/ADE5566/ADE5569 provide many

other peripherals not standard to the 8052 core, for example

•

ADE5166/ADE5169/ADE5566/ADE5569

ADE energy measurement DSP

Full RTC

LCD driver

Battery switchover/power management

Temperature ADC

Battery ADC

SPI/I

Flash memory controller

Watchdog timer

Secondary UART port

C communication

ADE5569ASTZF62 Analog Devices Inc, ADE5569ASTZF62 Datasheet - Page 83

ADE5569ASTZF62

Specifications of ADE5569ASTZF62

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