ATMEL AT5FC002-20 Datasheet

2-Megabyte Flash Memory PCMCIA Card

AT5FC002

Features

Single Power Supply

•

Read and Write Volta ge, 5 V ± 5%

High Performance

•

200 ns Maximum Access Time 6 ms Typical Sector Write

CMOS Low Power Consumption

•

20 mA Typical Active Current (Byte Mode) 400 µA Typic al Standby Current

Fully MS-DOS Compatible Flash Driver and Formatter

•

Virtual-Disk Flash Driver with 512 By tes/Sector Random Read/Write to any Sector No Erase Operation Required Prior to any Write

Zero Data Retention Power

•

Batteries not Required for Data Storage

PCMCIA/JEIDA 68-Pin Standard

•

Selectable Byte- or Word-Wide Configuration

High Re-programmable Endurance

•

Built-in Redundancy for Sector Replacement Minimum 100,000 Write Cycles

Five Levels of Write Protection

•

Prevent Accidental Data Loss

Block Diagram

Pin Configuration

Pin Name Function A0-A20 Addresses D0-D15 Data

CE1, CE2, WE, OE, REG CD, WP BVD1, BVD2

Control Signals

Card Status

Description

Atmel’s Flash Memory Card provides the highest system level performance for data and file storage solutions to the portable PC market segment. Data files and a pplications programs ca n be stored on the AT5FC002. This allows OEM manufacturers of portable system to eliminate the weight, power c onsumption and reliability issues associated with electro-mechanical disk-based systems. The AT5FC00 2 requires a single voltage power supply for total system operation. No batteries a re needed for data retention due to its Flash-based technology. S ince no high voltage (12-volt) is required to perform any write operation, the AT5FC002 is suitable for the emerging "mobile" personal systems.

The AT5FC002 is com pa tible wi th the 68-pin P CMC IA/JEI D A international standard. Atmel’s Flash Memory Cards can be read in either a byte-wide or word-wide mode which allows for flexible integration into various system pla tforms. It can be rea d like any typical PCMCIA SRAM or ROM card.

Block Diagram

The Card Information Structure (CIS) can be written by the OEM or by Atmel at the attribute memory address space using a format utility. The CIS appears at the beginning of the card’s attribute memory space and defines the low-level organization of data on the PC card. The AT5FC002 contains a separate 2 Kbyte EEPROM memory for the card’s attribute memory space.

The third party software sol ut ion s such as AWARD Softw are’s CardWare system and the SCM’s Flash File System (FFS), enables Atmel’s Flash Memory Card to emulate the function of

essentially all the major brand personal computers that are DOS/Windows compatible.

For some unique portable computers, such as the HP200/100/95LX series, the software Driver and Formatter are also available. The Atmel Driver and Formatter utilizes a selfcontained spare sector replacement algorithm, enabled by Atmel’s small 512-byte sectors, to achieve long term card reliability and endurance.

2 AT5FC002

Absolute Maximum Ratings*

Storage Temperature........................-30°C to +70°C

Ambient Temperature with

Power Applied................................... -10°C to +70°C

Voltage with Respect to Ground, All pins

(1)

............................................... -2.0 V to +7.0 V

Output Short Cir c uit Current

(1)

.......... -2.0 V to +7.0 V

(2)

....................-200 mA

AT5FC002

*NOTICE: Stresses beyond those listed under "Absolute Maximum

Ratings" may cause perm an en t dam ag e to the card . T his is a stress rating only and functional operation of the card at these or any other conditions beyond those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.

Notes:

1. Minimum DC voltage on input or I/O pins is -0.5 V. During voltage transients, inputs may overshoot V up to 20 ns. Maximum DC voltage on output and I/O pins is V

+0.5 V. During voltage transitions, outputs may overshoot to

+2.0 V for periods up to 20 ns.

2. No more than one output shorted at a time. Durati on of the short circuit should not be greater than one second. Conditions equal V

= 0.5 V or 5.0 V, VCC = Max.

OUT

to -2.0 V for periods of

D.C. and A.C. Operating Range

AT5FC002-20

Operating Temperature (Case) Com. 0

Power Supply 5 V ± 5%

Pin Capacitance

(f = 1 MHz, T = 25°C)

(1)

Symbol Parameter Conditions Typ Max Units

IN1

OUT

IN2

I/O

Note: 1. This parameter is characterized and is not 100% tested.

Address Capacitance VIN = 0 V 20 pF Output Capacitance V

= 0 V 20 pF

OUT

Control Capacitance VIN = 0 (CE) 45 pF I/O Capacitance V

= 0 V 20 pF

I/O

C - 70oC

PC Card Pin Assignments

I = Input, O = Output, I/O = Bi-directional, NC = No Connect

Pin Signal I/O Function

1 GND Ground 2 D3 I/O Data Bit 3 3 D4 I/O Data Bit 4 4 D5 I/O Data Bit 5 5 D6 I/O Data Bit 6 6 D7 I/O Data Bit 7 7

I Card Enable 1 8 A10 I Address Bit 10 9

OE I Output Enable 10 A11 I Address Bit 11 11 A9 I Address Bi t 9 12 A8 I Address Bi t 8 13 A13 I Address Bit 13 14 A14 I Address Bit 14 15

WE I Write Enable 16 NC No Connect 17 V

Power Supply 18 NC No Connect 19 A16 I Address Bit 16 20 A15 I Address Bit 15 21 A12 I Address Bit 12 22 A7 I Address Bi t 7 23 A6 I Address Bi t 6 24 A5 I Address Bi t 5 25 A4 I Address Bi t 4 26 A3 I Address Bi t 3 27 A2 I Address Bi t 2 28 A1 I Address Bi t 1 29 A0 I Address Bi t 0 30 D0 I/O Data Bit 0 31 D1 I/O Data Bit 1 32 D2 I/O Data Bit 2 33 WP O Write Protect 34 GND Ground

(1)

Pin Signal I/O Function

35 GND Groun d 36

O Card Detect 1 37 D11 I/O Data Bit 11 38 D12 I/O Data Bit 12 39 D13 I/O Data Bit 13 40 D14 I/O Data Bit 14 41 D15 I/O Data Bit 15 42

I Card Enable 2 43 NC No Connect 44 RFU Reserved 45 RFU Reserved 46 A17 I Address Bit 17 47 A18 I Address Bit 18 48 A19 I Address Bit 19 49 A20 I Address Bit 20 50 NC No Connect 51 V

Power Supply 52 NC No Connect 53 NC No Connect 54 NC No Connect 55 NC No Connect 56 NC No Connect 57 NC No Connect 58 NC No Connect 59 NC No Connect 60 NC No Connect 61 62 63 BVD

REG I Register Select BVD

O Ba ttery Voltage Detect 2

O Ba ttery Voltage Detect 1

64 D8 I/O Data Bit 8 65 D9 I/O Data Bit 9 66 D10 I/O Data Bit 10 67

O Card Detect 2

68 GND Groun d

(1)

(2) (2)

(1)

Notes: 1. Signal must not be connected between cards.

BVD = Internally pulled up.

4 AT5FC002

AT5FC002

Pin Description

Symbol Name Type Function

A0-A20 Address Inputs Input Address Inputs are internally latched during write cycles.

Data Input/Outputs are internally latched on write cycles. Data

D0-D15 Data Input/Output

CE1, CE

Card Enable Input

Input/Output

outputs are latched during read cycles. Data pins are active high. When the memory card is de-selected or the outputs are disabled the outputs float to tri-state.

Card Enable is active low. The memory card is de-selected and power consumption is reduced to standby levels when CE activates the internal memory card circuitry that c ontrols the high and low byte control logic of the card, input buffers, segment decoders, and associated memory devices.

CE is high.

OE Output Enable Input

WE Write Enable Input

GND Ground Ground CD1, CD

WP Write Protect Output

NC No Conne ct Corresponding pin is not connected internally. BVD1, BVD2Battery Voltage Detect Output Internally pulled up. (There is no battery in the card.)

REG Register Select Input

PC Card Power Supply

Card Detect Output When Card Detect 1 and 2 = Ground the system detects the card.

Output Enable is active low and enables the data buffers through the card outputs during read cycles.

Write Enable is active low and controls the write function to the memory array. The targe t address is latched on the falling e dge of the

WE pulse and the appropriate data is latched on the rising

edge of the pulse. PC Card Power Supply for device operation

(5.0 V ± 5%)

Write Protect is active high and indicates that all card write operations are disabled by the write protect switch.

Provide access to Card Information Structure in the Attribute Memory Device

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