CDP68HC68T1EZ Intersil, CDP68HC68T1EZ Datasheet - Page 8

CDP68HC68T1EZ

Manufacturer Part Number

CDP68HC68T1EZ

Description

IC RTC 32X8 NVSRAM CMOS 16DIP

Manufacturer

Intersil

Type

Clock/Calendar/NVSRAMr

Datasheet

1.CDP68HC68T1EZ.pdf (23 pages)

Specifications of CDP68HC68T1EZ

Memory Size

32B

Time Format

HH:MM:SS (12/24 hr)

Date Format

YY-MM-DD-dd

Interface

SPI, 3-Wire Serial

Voltage - Supply

3 V ~ 6 V

Operating Temperature

-40°C ~ 85°C

Mounting Type

Through Hole

Package / Case

16-DIP (0.300", 7.62mm)

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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Functional Description

The SPI real-time clock consists of a clock/calendar and a

32x8 RAM. Communications is established via the SPI

(Serial Peripheral Interface) bus. In addition to the

clock/calendar data from seconds to years, and system

flexibility provided by the 32-byte RAM, the clock features

computer handshaking with an interrupt output and a

separate squarewave clock output that can be one of seven

different frequencies. An alarm circuit is available that

compares the alarm latches with the seconds, minutes and

hours time counters and activates the interrupt output when

they are equal. The clock is specifically designed to aid in

power-down/power-up applications and offers several pins

to aid the designer of battery backup systems.

Mode Select

The voltage level that is present at the V

end of power-on-reset selects the device to be in the single

supply or battery backup mode.

Single-Supply Mode

If V

OUT, PSE and CPUR will be enabled and the device will be

completely operational. CPUR will be placed low if the logic

level at the V

PSE and CPUR are disabled due to a power-down instruction,

enable these outputs. An example of the single-supply mode is

where only one supply is available and V

are tied together to the supply.

Battery Backup Mode

If V

OUT, PSE and CPUR will be disabled (CLK OUT, PSE and

CPUR low). This condition will be held until V

threshold (about 1.0V) above V

PSE and CPUR will then be enabled and the device will be

operational. If V

outputs CLK OUT, PSE and CPUR will be disabled. An

example of battery backup operation occurs if V

connected to the V

Clock/Calendar

The clock/calendar portion of this device consists of a long

string of counters that is toggled by a 1Hz input. The 1Hz

input is generated by a prescaler driven by an on-board

oscillator that utilizes one of four possible external crystals or

that can be driven by an external clock source. The 1Hz

trigger to the counters can also be supplied by a 50Hz or

60Hz input source that is connected to the LINE input pin.

The time counters offer seconds, minutes and hours data in

12 hour or 24 hour format. An AM/PM indicator is available

that once set, toggles every 12 hours. The calendar counters

consist of day (day of week), date (day of month), month and

SYS

BATT

SYS

and V

brought to a logic low and then to a logic high will re-

for Battery Backup Operation on page 11.)

is a logic high when power-on-reset is completed, CLK

is a logic low at the end of power-on-reset, CLK

SYS

is not connected to a supply when a battery is

SYS

pin goes low. If the output signals CLK OUT,

BATT

(See Figures 1 and 2)

falls below a threshold above V

pin. (See "Functional Description",

BATT

. The outputs CLK OUT,

SYS

, V

BATT

input pin at the

SYS

rises to a

and V

BATT

is tied to

CDP68HC68T1

SYS

the

years information. Data in the counters is in BCD format. The

hours counter utilizes BCD for hour data plus bits for 12/24 hour

and AM/PM. The seven time counters are accessed serially at

addresses 20H through 26H. See Table 1.

RAM

The real-time clock also has a static 32x8 RAM that is located

at addresses 00-1FH. Transmitting the address/control word

with Bit 5 low selects RAM access. Bits 0 through 4 select the

RAM location.

Alarm

The alarm is set by accessing the three alarm latches and

loading the required data. The alarm latches consist of

seconds, minutes and hours registers. When their outputs

equal the values in the seconds, minutes and hours time

counters, an interrupt is generated. The interrupt output will go

low if the alarm bit in the Interrupt Control Register is set high.

The alarm interrupt bit in the Status Register is set when the

interrupt occurs (see "Functional Description", INT Pin on

page 10). To preclude a false interrupt when loading the time

counters, the alarm interrupt bit should be set low in the

Interrupt Control Register. This procedure is not required when

the alarm time is set.

Watchdog Function (

When Bit 7 in the Interrupt Control Register is set high, the

Clock’s CE (chip enable) pin must be toggled at a regular

interval without a serial data transfer. If the CE is not toggled,

the clock will supply a CPU reset pulse and Bit 6 in the Status

Table 2.

Clock Out

The value in the three least significant bits of the Clock Control

(See “Clock Control Register” on page 11). This squarewave

signal is available at the CLK OUT pin. When power-down

operation is initiated, the output is set low.

Control Registers and Status Registers

The operation of the Real-Time Clock is controlled by the Clock

Control and Interrupt Control Registers. Both registers are

Read-Write Registers. Another register, the Status Register, is

available to indicate the operating conditions. The Status

Power Control

Power control is composed of two operations, Power Sense

and Power-Down/Power-Up. Two pins are involved in power

sensing, the LINE input pin and the INT output pin. Two

additional pins are utilized during power-down/power-up

operation. They are the PSE (Power Supply Enable) output

pin and V

Service Time

Reset Time

SYS

input pin.

MIN

50Hz

10ms

40ms

MAX

See Figure 6

TABLE 2.

MIN

16.7

60Hz

)

33.3ms

8.3ms

MAX

15.6

MIN

October 29, 2007

XTAL

31.3ms

7.8ms

FN1547.8

MAX

CDP68HC68T1EZ Intersil, CDP68HC68T1EZ Datasheet - Page 8

CDP68HC68T1EZ

Specifications of CDP68HC68T1EZ

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