MM58274CN-12 National Semiconductor, MM58274CN-12 Datasheet - Page 5

MM58274CN-12

Manufacturer Part Number

MM58274CN-12

Description

Manufacturer

National Semiconductor

Datasheet

1.MM58274CN-12.pdf (16 pages)

Specifications of MM58274CN-12

Bus Type

Parallel

Operating Supply Voltage (typ)

Operating Supply Voltage (max)

5.5V

Operating Supply Voltage (min)

4.5V

Operating Temperature Classification

Industrial

Operating Temperature (max)

85C

Operating Temperature (min)

-40C

Pin Count

Mounting

Through Hole

Date Format

DW:DM:M:Y

Time Format

HH:MM:SS:hh

Lead Free Status / RoHS Status

Not Compliant

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Functional Description

The MM58274C-12 is a bus oriented microprocessor real

time clock It has the same pin-out as the MM58174A while

offering extended timekeeping up to units and tens of years

To enhance the device further a number of other features

have been added including 12 hour counting a testable

data-changed flag giving easy error-free time reading and

simplified interrupt control

A buffered oscillator signal appears on the interrupt output

when the device is in test mode This allows for easy oscilla-

tor setting when the device is initially powered up in a sys-

tem

The counters are arranged as 4-bit words and can be ran-

domly accessed for time reading and setting The counters

output in BCD (binary coded decimal) 4-bit numbers Any

only 3 bits) will return a logic 0 on any unused bits When

written to the unused inputs will be ignored

Writing a logic 1 to the clock start stop control bit resets the

internal oscillator divider chain and the tenths of seconds

counter Writing a logic 0 will start the clock timing from the

nearest second The time then updates every 100 ms with

all counters changing synchronously Time changing during

a read is detected by testing the data-changed bit of the

control register after completing a string of clock register

reads

Interrupt delay times of 0 1s 0 5s 1s 5s 10s 30s or 60s

can be selected with single or repeated interrupt outputs

The open drain output is pulled low whenever the interrupt

timer times out and is cleared by reading the control regis-

ter

Use resistor with Ni-cad cells only

FIGURE 3 Typical System Connection Diagram

CIRCUIT DESCRIPTION

The block diagram in Figure 1 shows the internal structure

of the chip The 16-pin package outline is shown in Figure 2

Crystal Oscillator

This consists of a CMOS inverter amplifier with an on-chip

bias resistor Externally a 20 pF capacitor a 6 pF–36 pF

trimmer capacitor and a crystal are suggested to complete

the 32 768 kHz timekeeping oscillator circuit

The 6 pF – 36 pF trimmer fine tunes the crystal load imped-

ance optimizing the oscillator stability When properly ad-

justed (i e to the crystal frequency of 32 768 kHz) the cir-

cuit will display a frequency variation with voltage of less

than 3 ppm V When an external oscillator is used connect

to oscillator input and float (no connection) the oscillator

output

When the chip is enabled into test mode the oscillator is

gated onto the interrupt output pin giving a buffered oscilla-

tor output that can be used to set the crystal frequency

when the device is installed in a system For further informa-

tion see the section on Test Mode

Divider Chain

The crystal oscillator is divided down in three stages to pro-

duce a 10 Hz frequency setting pulse The first stage is a

non-integer divider which reduces the 32 768 kHz input to

30 720 kHz This is further divided by a 9-stage binary ripple

counter giving an output frequency of 60 Hz A 3-stage

Johnson counter divides this by six generating a 10 Hz out-

put The 10 Hz clock is gated with the 32 768 kHz crystal

frequency to provide clock setting pulses of 15 26 s dura-

tion The setting pulse drives all the time registers on the

TL F 5602 – 5

MM58274CN-12 National Semiconductor, MM58274CN-12 Datasheet - Page 5

MM58274CN-12

Specifications of MM58274CN-12

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