DS1685-3_12 MAXIM [Maxim Integrated Products], DS1685-3_12 Datasheet - Page 4

DS1685-3_12

Manufacturer Part Number

DS1685-3_12

Description

3V/5V Real-Time Clocks

Manufacturer

MAXIM [Maxim Integrated Products]

Datasheet

1.DS1685-3_12.pdf (34 pages)

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PIN DESCRIPTIONS

TSSOP

12, 16

PDIP,

4–11

SO,

—

DS1685

1, 11, 13,

5–10, 12,

PLCC

15, 20

DS1687

2, 3, 16,

EDIP

4–11

—

AD0–AD7

NAME

GND

PWR

N.C.

ALE

Active Low Power-On Output, Open Drain. The PWR pin is intended for use

as an on/off control for the system power. With V

the DS1685/DS1687, PWR can be automatically activated from a kickstart

input by the KS pin or from a wake-up interrupt. Once the system is

powered on, the state of PWR can be controlled by bits in the Maxim

Integrated registers. The PWR pin can be connected through a pullup

resistor to a positive supply. The voltage of the pullup supply should be no

greater than 5.5V.

No Connection. Pins missing by design.

Connections for Standard 32.768kHz Quartz Crystal. For greatest

accuracy, the DS1685 must be used with a crystal that has a specified load

capacitance of either 6pF or 12.5pF. The crystal-select (CS) bit in Extended

Control Register 4B is used to select operation with a 6pF or 12.5pF

crystal. The crystal is attached directly to the X1 and X2 pins. There is no

need for external capacitors or resistors. Note: X1 and X2 are very high-

impedance nodes. It is recommended that they and the crystal be guard-

ringed with ground and that high-frequency signals be kept away from the

crystal area.

Multiplexed, Bidirectional Address/Data Bus. The addresses are present

during the first portion of the bus cycle and the same pins and signal paths

are used for data in the second portion of the cycle. Address/data

multiplexing does not slow the access time of the DS1685 since the bus

change from address to data occurs during the internal RAM access time.

Addresses must be valid prior to the latter portion of ALE, at which time the

DS1685/DS1687 latches the address. Valid write data must be present and

held stable during the latter portion of the WR pulse. In a read cycle, the

DS1685/DS1687 outputs 8 bits of data during the latter portion of the RD

pulse. The read cycle is terminated and the bus returns to a high-

impedance state as RD transitions high. The address/data bus also serves

as a bidirectional data path for the extended RAM.

Ground

Chip-Select Input, Active-Low. The chip-select signal must be asserted low

during a bus cycle for the RTC portion of the DS1685/DS1687 to be

accessed. CS must be kept in the active state during RD and WR timing.

Bus cycles that take place with ALE asserted but without asserting CS will

latch addresses. However, no data transfer will occur.

Address-Strobe Input, Active High. A pulse on the address strobe pin

serves to demultiplex the bus. The falling edge of ALE causes the RTC

address to be latched within the DS1685/DS1687.

Write Input, Active Low. The WR signal is an active-low signal. The WR

signal defines the time period during which data is written to the addressed

Read Input, Active Low. RD identifies the time period when the

DS1685/DS1687 drives the bus with RTC read data. The RD signal is an

enable signal for the output buffers of the clock.

4 of 34

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DS1685-3_12 MAXIM [Maxim Integrated Products], DS1685-3_12 Datasheet - Page 4

DS1685-3_12

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