MAX6900ETT+T Maxim Integrated Products, MAX6900ETT+T Datasheet - Page 7

MAX6900ETT+T

Manufacturer Part Number

MAX6900ETT+T

Description

Real Time Clock IC RTC I2C COMPAT atible RTC in a TDFN

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX6900ETTT.pdf (17 pages)

Specifications of MAX6900ETT+T

Function

Clock, Calendar, Alarm

Rtc Memory Size

31 B

Supply Voltage (max)

5.5 V

Supply Voltage (min)

2 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Rtc Bus Interface

Serial

Package / Case

TDFN EP

Time Format

HH:MM:SS

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current page: 7 of 17
Download datasheet (194Kb)

Figure 7. I

An unlimited number of data bytes between the start

and stop conditions can be sent between the transmit-

ter and receiver. Each 8-bit byte is followed by an

acknowledge bit. Also, a master receiver must gener-

ate an acknowledge after each byte it receives that has

been clocked out of the slave transmitter.

The device that acknowledges must pull down the SDA

line during the acknowledge clock pulse (Figure 7), so

that the SDA line is stable low during the high period of

the acknowledge clock pulse (setup and hold times

must also be met). A master receiver must signal an

end of data to the transmitter by not generating an

acknowledge on the last byte that has been clocked

out of the slave. In this case, the transmitter must leave

SDA high to enable the master to generate a stop con-

dition. Any time a stop condition is received before the

current byte of data transfer is complete, the last incom-

plete byte is ignored.

The second byte of data sent after the start condition is

the Address/Command byte (Figure 8). Each data

transfer is initiated by an Address/Command byte. The

MSB (bit 7) must be a logic 1. When the MSB is zero,

Writes to the MAX6900 are disabled. Bit 6 specifies

clock/calendar data if logic 0 or RAM data if logic 1

(Tables 1 and 2). Bits 1 through 5 specify the designat-

ed registers to be input or output. The LSB (bit 0) spec-

ifies a Write operation (input) if logic 0 or Read

operation (output) if logic 1. The Command byte is

always input starting with the MSB (bit 7).

BY TRANSMITTER

DATA OUTPUT

C Bus Acknowledge

BY RECEIVER

SCL FROM

MASTER

_______________________________________________________________________________________

CONDITION

START

CLK1

C-Compatible RTC in a TDFN

CLK2

The timekeeping registers (Seconds, Minutes, Hours,

Date, Month, Day, Year, and Century) read either with a

Single Read or a Burst Read. Since the clock runs con-

tinuously and a Read takes a finite amount of time, it is

possible that the clock counters could change during a

Read operation, thereby reporting inaccurate timekeep-

ing data. In the MAX6900, the clock counter data is

buffered by a latch. Clock counter data is latched by the

of SCL when the Slave Acknowledge bit is sent after the

Address/Command byte has been sent by the master to

read a timekeeping register). Collision-detection circuitry

ensures that this does not happen coincident with a sec-

onds counter update to ensure accurate time data is

being read. This avoids time data changes during a

Read operation. The clock counters continue to count

and keep accurate time during the Read operation.

When using a Single Read to read each of the time-

keeping registers individually, perform error checking

Figure 8. Address/Command Byte

C-bus-compatible read command (on the falling edge

RAM

/CLK

Reading from the Timekeeping

NOT ACKNOWLEDGE

CLK8

ACKNOWLEDGE

ACKNOWLEDGMENT

CLOCK PULSE FOR

CLK9

Registers

MAX6900ETT+T Maxim Integrated Products, MAX6900ETT+T Datasheet - Page 7

MAX6900ETT+T

Specifications of MAX6900ETT+T

Related parts for MAX6900ETT+T