CY14B101K-SP25XCT CYPRESS [Cypress Semiconductor], CY14B101K-SP25XCT Datasheet - Page 8

CY14B101K-SP25XCT

Manufacturer Part Number

CY14B101K-SP25XCT

Description

1 Mbit (128K x 8) nvSRAM With Real Time Clock

Manufacturer

CYPRESS [Cypress Semiconductor]

Datasheet

1.CY14B101K-SP25XCT.pdf (24 pages)

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compared to the terminal value of ‘0’. If the counter reaches this

value, it causes an internal flag and an optional interrupt output.

You can prevent the timeout interrupt by setting WDS bit to ‘1’

before the counter reaching ‘0’. This reloads the counter with the

watchdog timeout value and restarts. As long as the user sets

the WDS bit before the counter reaches the terminal value, the

interrupt and flag never occur.

Write new timeout values by setting the watchdog WRITE bit to

‘0’. When the WDW is ‘0’ (from the previous operation), new

writes to the watchdog timeout value bits D5–D0 enable to

modify the timeout value. When WDW is a ‘1’, writes to bits D5

– D0 are ignored. The WDW function enables a user to set the

WDS bit without concern that the watchdog timer value is

modified. A logical diagram of the watchdog timer is shown in

Figure

otherwise meaningless and disables the watchdog function.

The output of the watchdog timer is the flag bit WDF that is set if

the watchdog is allowed to timeout. The flag is set upon a

watchdog timeout and cleared when the Flags/Control register is

Read by the user. If the watchdog timeout occurs, the user can

also enable an optional interrupt source to drive the INT pin.

Power Monitor

The CY14B101K provides a power management scheme with

power fail interrupt capability. It also controls the internal switch

to backup power for the clock and protects the memory from low

reference circuit that compares the V

thresholds.

As described in the

operation is initiated from SRAM to the nonvolatile elements,

securing the last SRAM data state. Power is also switched from

RTC oscillator.

When operating from the backup source, no data is read or

written and the clock functions are not available to the user. The

clock continues to operate in the background. Updated clock

data is available to the user after VCC is restored to the device

Document Number: 001-06401 Rev. *G

SWITCH

32,768 KHz

Oscillator

WDW

WDS

access. The power monitor is based on an internal band gap

to the backup supply (battery or capacitor) to operate the

4. Note that setting the watchdog timeout value to ‘0’ is

Figure 4. Watchdog Timer Block Diagram

is reached as V

Watchdog

write to

“AutoStore Operation”

Watchdog

Divider

Counter

Clock

Load

decays from power loss, a data store

32 Hz

1 Hz

Compare

Zero

voltage to various

on page 3, when

WDF

and the RECALL delay (see the section

RECALL”

Interrupts

The CY14B101K provides three potential interrupt sources.

They include the watchdog timer, the power monitor, and the

clock or calendar alarm. Individually enable each and assign to

drive the INT pin. In addition, each has an associated flag bit that

the host processor uses to determine the cause of the interrupt.

Some of the sources have additional control bits that determine

functional behavior. In addition, the pin driver has three bits that

specify its behavior when an interrupt occurs.

The three interrupts each have a source and an enable. Both the

source and the enable are active (true HIGH) to generate an

interrupt output. Only one source is necessary to drive the pin.

The user identifies the source by reading the Flags/Control

flags are cleared to ‘0‘ when the register is READ. The flags are

cleared only after a complete read cycle (WE HIGH). The power

monitor has two programmable settings that is explained in the

section

Once an interrupt source is active, the pin driver determines the

behavior of the output. It has two programmable settings as

shown in the following section. Pin driver control bits are located

in the Interrupts register.

According to the programming selections, the pin is driven in the

backup mode for an alarm interrupt. In addition, the pin is an

active LOW (open drain) or an active HIGH (push pull) driver. If

programmed for operation during backup mode, it is only active

LOW. Lastly, the pin provides a one shot function so that the

active condition is a pulse or a level condition. In one shot mode,

the pulse width is internally fixed at approximately 200 ms. This

mode is intended to reset a host microcontroller. In level mode,

the pin goes to its active polarity until the Flags/Control register

is read by the user. This mode is used as an interrupt to a host

microcontroller. The Interrupt register is initialized to 00h. The

control bits are summarized as follows:

Watchdog Interrupt Enable – WIE. When set to ‘1’, the

watchdog timer drives the INT pin and an internal flag when a

watchdog timeout occurs. When WIE is set to ‘0’, the watchdog

timer affects only the internal flag.

Alarm Interrupt Enable – AIE. When set to ‘1’, the alarm match

drives the INT pin and an internal flag. When set to ‘0’, the alarm

match only affects the internal flag.

Power Fail Interrupt Enable – PFE. When set to ‘1’, the power

fail monitor drives the pin and an internal flag. When set to ‘0’,

the power fail monitor affects only the internal flag.

High/Low – H/L. When set to a ‘1’, the INT pin is active HIGH

and the driver mode is push pull. The INT pin drives high only

when V

LOW and the drive mode is open drain. Active LOW (open drain)

is operational even in battery backup mode.

Pulse/Level – P/L. When set to a ‘1’ and an interrupt occurs, the

INT pin is driven for approximately 200 ms. When P/L is set to a

‘0’, the INT pin is driven high or low (determined by H/L) until the

Flags/Control register is READ.

“Power Monitor”

on page 16).

> V

SWITCH

. When set to a ‘0’, the INT pin is active

on page 8.

“AutoStore/Power Up

CY14B101K

Page 8 of 24

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