PRELIMINARY

CY14B101P

1 Mbit (128K x 8) Serial SPI nvSRAM

with Real Time Clock

Cypress Semiconductor Corporation

•

198 Champion Court

•

San Jose

,

CA 95134-1709

•

408-943-2600

Document #: 001-44109 Rev. *B

Revised February 2, 2009

Features

■

1 Mbit NonVolatile SRAM

❐

Internally organized as 128K x 8

❐

STORE to QuantumTrap

®

nonvolatile elements initiated

automatically on power down (AutoStore

®

) or by user using

HSB pin (Hardware Store) or SPI instruction (Software Store)

❐

RECALL to SRAM initiated on power up (Power Up Recall

®

)

or by SPI Instruction (Software Recall)

❐

Automatic STORE on power down with a small capacitor

■

High Reliability

❐

Infinite Read, Write, and RECALL cycles

❐

200,000 STORE cycles to QuantumTrap

❐

Data Retention: 20 Years

■

Real Time Clock

❐

Full featured Real Time Clock

❐

Watchdog timer

❐

Clock alarm with programmable interrupts

❐

Capacitor or battery backup for RTC

❐

Backup current of 300 nA

■

High Speed Serial Peripheral Interface (SPI)

❐

40 MHz Clock rate - RTC Read at 25 MHz

❐

Supports SPI Modes 0 (0,0) and 3 (1,1)

■

Write Protection

❐

Hardware Protection using Write Protect (WP) Pin

❐

Software Protection using Write Disable Instruction

❐

Software Block Protection for 1/4, 1/2, or entire Array

■

Low Power Consumption

❐

Single 3V +20%, –10% operation

❐

Average Vcc current of 10 mA at 40 MHz operation

■

Industry Standard Configurations

❐

Commercial and industrial temperatures

❐

16-pin SOIC Package

❐

RoHS compliant

Overview

The Cypress CY14B101P combines a 1 Mbit nonvolatile static
RAM with full featured real time clock in a monolithic integrated
circuit with serial SPI interface. The memory is organized as
128K words of 8 bits each. The embedded nonvolatile elements
incorporate the QuantumTrap technology, creating the world’s
most reliable nonvolatile memory. The SRAM provides infinite
read and write cycles, while the QuantumTrap cells provide
highly reliable nonvolatile storage of data. Data transfers from
SRAM to the nonvolatile elements (STORE operation) takes
place automatically at power down. On power up, data is
restored to the SRAM from the nonvolatile memory (RECALL
operation). The STORE and RECALL operations can also be
initiated by the user.

Instruction

register

Address
Decoder

Data I/O register

Status register

Power Control

STORE/RECALL

Control

Instruction decode

Write protect
Control logic

Quantum Trap

STORE

RECALL

SI

SCK

V

CC

V

CAP

SO

HSB

128K X 8

SRAM ARRAY

128K X 8

RTC

Xout
Xin

INT

MUX

A0-A16

D0-D7

HOLD

CS

WP

Logic Block Diagram

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