NM24C17UFTLZMT8 [FAIRCHILD]

I2C Serial EEPROM ; I2C串行EEPROM\n


型号：	NM24C17UFTLZMT8
厂家：	FAIRCHILD SEMICONDUCTOR
描述：	I2C Serial EEPROM I2C串行EEPROM\n 存储内存集成电路光电二极管可编程只读存储器电动程控只读存储器电可擦编程只读存储器时钟
文件：	总13页 (文件大小：99K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

August 1999

NM24C16U/NM24C17U

16K-Bit Serial EEPROM

2-Wire Bus Interface

General Description

Functions

I I²C™ compatible interface

The NM24C16U/17U devices are 16K (16,384) bit serial interface

CMOS EEPROMs (Electrically Erasable Programmable Read-

OnlyMemory).ThesedevicesfullyconformtotheStandardI²C™

2-wire protocol which uses Clock (SCL) and Data I/O (SDA) pins

to synchronously clock data between the "master" (for example a

microprocessor) and the "slave" (the EEPROM device). In addi-

tion, the serial interface allows a minimal pin count packaging

designed to simplify PC board layout requirements and offers the

designer a variety of low voltage and low power options.

I 4,096 bits organized as 512 x 8

I Extended 2.7V – 5.5V operating voltage

I 100 KHz or 400 KHz operation

I Self timed programming cycle (6ms typical)

I "Programming complete" indicated by ACK polling

I NM24C17U: Memory "Upper Block" Write Protect pin

Features

NM24C17U incorporates a hardware "Write Protect" feature, by

which, the upper half of the memory can be disabled against

programming by connecting the WP pin to V_CC. This section of

memory then effectively becomes a ROM (Read-Only Memory)

andcannolongerbeprogrammedaslongasWPpinisconnected

I The I²C™ interface allows the smallest I/O pincount of any

EEPROM interface

I 16 byte page write mode to minimize total write time per byte

to V_CC

I Typical 200µA active current (I_CCA)

I Typical 1µA standby current (I_SB) for "L" devices and 0.1µA

standby current for "LZ" devices

Fairchild EEPROMs are designed and tested for applications requir-

ing high endurance, high reliability and low power consumption for a

continuously reliable non-volatile solution for all markets.

I Endurance: Up to 1,000,000 data changes

I Data retention greater than 40 years

Block Diagram

H.V. GENERATION

TIMING &CONTROL

START

STOP

SDA

LOGIC

CONTROL

LOGIC

SLAVE ADDRESS

PROM

COMPARATOR

XDEC

ARRAY

SCL

WORD

ADDRESS

COUNTER

R/W

YDEC

OUT

DATA REGISTER

DS800010-1

I²C™ is a registered trademark of Philips Electronics N.V.

NM24C16U/17U Rev. B.1

www.fairchildsemi.com

Connection Diagrams

Dual-In-Line Package (N),

8-Pin SO Package (M8)

8-Pin TSSOP Package (MT8)

Rotated Die (24C16UT)

SCL

SDA

SCL

NM24C16U

NM24C16UT

SDA

DS800010-2

DS800010-3

Top View

See Package Number N08E, M08A and MTC08

Pin Names

V_SS

Ground

SDA

SCL

Serial Data I/O

Serial Clock Input

No Connection

Power Supply

V_CC

Dual-In-Line Package (N),

8-Pin SO Package (M8)

8-Pin TSSOP Package (MT8)

Rotated Die (24C17UT)

SCL

SDA

NM24C17UT

NM24C17U

SCL

SDA

DS800010-5

DS800010-4

Top View

See Package Number N08E, M08A and MTC08

Pin Names

V_SS

Ground

SDA

SCL

V_CC

Serial Data I/O

Serial Clock input

Write Protect

Power Supply

No Connection

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NM24C16U/17U Rev. B.1

Ordering Information

NM 24

T LZ

Letter Description

Package

8-pin DIP

MT8

8-pin SOIC

8-pin TSSOP

Temp. Range

None

0 to 70°C

-40 to +125°C

-40 to +85°C

Voltage Operating Range

Blank

4.5V to 5.5V

2.7V to 5.5V

2.7V to 5.5V and

<1µA Standby Current

Blank

Normal Pin Out

Rotated Die Pin Out

SCL Clock Frequency

Blank

100KHz

400KHz

Ultralite CS100UL Process

Density

16K

16K with Write Protect

CMOS Technology

Total Array Write Protect

Interface

IIC

Fairchild Non-Volatile

Memory

www.fairchildsemi.com

NM24C16U/17U Rev. B.1

Product Specifications

Operating Conditions

Ambient Operating Temperature

NM24C16U/17U

Absolute Maximum Ratings

Ambient Storage Temperature

–65°C to +150°C

6.5V to –0.3V

0°C to +70°C

-40°C to +85°C

-40°C to +125°C

All Input or Output Voltages

with Respect to Ground

NM24C16UE/17UE

NM24C16UV/17UV

Lead Temperature

Positive Power Supply

NM24C16U/17U

(Soldering, 10 seconds)

+300°C

4.5V to 5.5V

2.7V to 5.5V

ESD Rating

2000V min.

NM24C16UL/17UL

NM24C16ULZ/17ULZ

Standard V_CC(4.5V to 5.5V) DC Electrical Characteristics

Symbol

Parameter

Test Conditions

Limits

Typ

Units

Min

Max

(Note 1)

I_CCA

Active Power Supply Current

f_SCL= 400 KHz

f_SCL= 100 KHz

0.2

1.0

I_SB

I_LI

Standby Current

V_IN= GND or V_CC

V_IN= GND to V_CC

V_OUT= GND to V_CC

0.1

µA

Input Leakage Current

Output Leakage Current

Input Low Voltage

I_LO

V_IL

V_IH

V_OL

–0.3

V_CCx 0.3

V_CC+ 0.5

0.4

Input High Voltage

Output Low Voltage

V_CCx 0.7

I_OL= 3 mA

Low V_CC(2.7V to 5.5V) DC Electrical Characteristics

Symbol

Parameter

Test Conditions

Limits

Units

Min

Typ

Max

(Note 1)

I_CCA

Active Power Supply Current f_SCL= 400 KHz

f_SCL= 100 KHz

0.2

1.0

I_SB

Standby Current

V_IN= GND V_CC= 2.7V - 4.5V

0.1

µA

or V_CC

V_CC= 2.7V - 4.5V

V_CC= 4.5V - 5.5V

I_LI

I_LO

Input Leakage Current

Output Leakage Current

Input Low Voltage

V_IN= GND to V_CC

V_OUT= GND to V_CC

0.1

µA

V_IL

V_IH

V_OL

–0.3

V_CCx 0.3

V_CC+ 0.5

0.4

Input High Voltage

V_CCx 0.7

Output Low Voltage

I_OL= 3 mA

Capacitance T_A= +25°C, f = 100/400 KHz, V_CC= 5V (Note 2)

Symbol

C_I/O

Test

Conditions

V_I/O= 0V

Max Units

Input/Output Capacitance (SDA)

Input Capacitance (A0, A1, A2, SCL)

C_IN

V_IN= 0V

Note 1: Typical values are T_A= 25°C and nominal supply voltage (5V).

Note 2: This parameter is periodically sampled and not 100% tested.

www.fairchildsemi.com

NM24C16U/17U Rev. B.1

AC Conditions of Test

Input Pulse Levels

V_CCx 0.1 to V_CCx 0.9

Input Rise and Fall Times

10 ns

Input & Output Timing Levels V_CCx 0.5

Output Load

1 TTL Gate and C_L= 100 pF

Read and Write Cycle Limits (Standard and Low V_CCRange 2.7V - 5.5V)

Symbol

Parameter

100 KHz

400 KHz

Units

Min

Max

Min

Max

f_SCL

T_I

SCL Clock Frequency

100

3.5

400

KHz

Noise Suppression Time Constant at

SCL, SDA Inputs (Minimum V_IN

Pulse width)

t_AA

SCL Low to SDA Data Out Valid

0.3

4.7

0.1

1.3

0.9

µs

t_BUF

Time the Bus Must Be Free before

a New Transmission Can Start

t_HD:STA

t_LOW

Start Condition Hold Time

Clock Low Period

4.0

4.7

4.0

4.7

0.6

1.5

0.6

µs

t_HIGH

Clock High Period

t_SU:STA

Start Condition Setup Time

(for a Repeated Start Condition)

t_HD:DAT

t_SU:DAT

t_R

Data in Hold Time

µs

Data in Setup Time

250

100

SDA and SCL Rise Time

SDA and SCL Fall Time

Stop Condition Setup Time

Data Out Hold Time

0.3

t_F

300

t_SU:STO

t_DH

4.7

0.6

300

t_WR

(Note 3)

Write Cycle Time - NM24C16U/17U

- NM24C16U/17UL, NM24C16U/17ULZ

Note 3: The write cycle time (t_WR) is the time from a valid stop condition of a write sequence to the end of the internal erase/program cycle. During the write cycle, the

NM24C16U/17U bus interface circuits are disabled, SDA is allowed to remain high per the bus-level pull-up resistor, and the device does not respond to its slave address.

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NM24C16U/17U Rev. B.1

Bus Timing

HIGH

LOW

SCL

SU:STO

SU:DAT

SU:STA

HD:DAT

HD:STA

SDA

BUF

SDA

OUT

DS800010-8

System Layout

Typical System Configuration

SDA

SCL

Master

Transmitter/

Receiver

Slave

Transmitter/

Receiver

Master

Transmitter/

Receiver

Master

Transmitter

Slave

Receiver

DS800010-20

Note:

Due to open drain configuration of SDA, a bus-level pull-up resistor is called for, (typical value = 4.7kΩ)

Example of 16K of Memory on 2-Wire Bus

Device

Address Pins

Memory Size # of Page

Blocks

NM24C16U/17U

No Connect

16,384 Bits

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NM24C16U/17U Rev. B.1

Device Operation

Pin Descriptions

Background Information (IIC Bus)

Serial Clock (SCL)

As mentioned, the IIC bus allows synchronous bidirectional com-

munication between Transmitter/Receiver using the SCL (clock)

and SDA (Data I/O) lines. All communication must be started with

a valid START condition, concluded with a STOP condition and

acknowledged by the Receiver with an ACKNOWLEDGE condi-

tion.

The SCL input is used to clock all data into and out of the device.

Serial Data (SDA)

SDA is a bidirectional pin used to transfer data into and out of the

device. It is an open drain output and may be wire–ORed with any

number of open drain or open collector outputs.

As shown below, the EEPROMs on the IIC bus may be configured

in any manner required, the total memory addressed can not

exceed 16K (16,384 bits). EEPROM memory address program-

ming is controlled by 2 methods:

WP Write Protection (NM24C17U Only)

If tied to V , PROGRAM operations onto the upper half of the

memory will not be executed. READ operations are possible. If

tied to V , normal operation is enabled, READ/WRITE over the

• All unused pins must be grounded (tied to V_SS).

entire memory is possible.

• Software addressing the required PAGE BLOCK within the

device memory array (as sent in the Slave Address string).

Thisfeatureallowstheusertoassigntheupperhalfofthememory

as ROM which can be protected against accidental programming.

When write is disabled, slave address and word address will be

acknowledged but data will not be acknowledged.

For devices with densities greater than 16K, a different protocol,

theExtendedIICprotocol,isused.RefertoNM24C32Udatasheet

(for example) for additional details.

Addressing an EEPROM memory location involves sending a

command string with the following information:

[DEVICE TYPE]–[DEVICE ADDRESS]–[PAGE BLOCK AD-

DRESS]–[BYTE ADDRESS]

Device Operation

The NM24C16U/17U supports a bidirectional bus oriented proto-

col. The protocol defines any device that sends data onto the bus

as a transmitter and the receiving device as the receiver. The

device controlling the transfer is the master and the device that is

controlled is the slave. The master will always initiate data

transfers and provide the clock for both transmit and receive

operations. Therefore, the NM24C16U/17U will be considered a

slave in all applications.

DEFINITIONS

WORD

PAGE

8 bits (byte) of data

16 sequential addresses (one byte

each) that may be programmed

during a 'Page Write' programming

cycle

Clock and Data Conventions

PAGE BLOCK

MASTER

2048 (2K) bits organized into 16

pages of addressable memory.

(8 bits) x (16 pages) = 2048 bits

Data states on the SDA line can change only during SCL LOW.

SDA state changes during SCL HIGH are reserved for indicating

start and stop conditions. Refer to Figure 2 and Figure 3 on next

page.

Any IIC device CONTROLLING the

transfer of data (such as a

microprocessor)

Start Condition

All commands are preceded by the start condition, which is a

HIGH to LOW transition of SDA when SCL is HIGH. The

NM24C16U/17UcontinuouslymonitorstheSDAandSCLlinesfor

the start condition and will not respond to any command until this

condition has been met.

SLAVE

Device being controlled

(EEPROMs are always considered

Slaves)

TRANSMITTER

RECEIVER

Device currently SENDING data on

the bus (may be either a Master or

Slave).

Stop Condition

All communications are terminated by a stop condition, which is a

LOW to HIGH transition of SDA when SCL is HIGH. The stop

condition is also used by the NM24C16U/17U to place the device

in the standby power mode.

Device currently RECEIVING data

on the bus (Master or Slave)

Write Cycle Timing

Acknowledge

Acknowledge is a hardware convention used to indicate success-

ful data transfers. The transmitting device, either master or slave,

will release the bus after transmitting eight bits.

During the ninth clock cycle the receiver will pull the SDA line to

LOW to acknowledge that it received the eight bits of data. Refer

to Figure 4.

www.fairchildsemi.com

NM24C16U/17U Rev. B.1

Write Cycle Timing (Figure 1)

SCL

SDA

8th BIT

WORD n

ACK

STOP

CONDITION

START

CONDITION

DS800010-10

Note:

The write cycle time (t_WR) is the time from a valid stop condition of a write sequence to the end of the internal erase/program cycle.

Data Validity (Figure 2)

SCL

SDA

DATA STABLE

DATA

CHANGE

DS800010-11

Start and Stop Definition (Figure 3)

SCL

SDA

START

STOP

CONDITION

DS800010-12

Acknowledge Response from Receiver (Figure 4)

SCL FROM

MASTER

DATA OUTPUT

FROM

TRANSMITTER

DATA OUTPUT

FROM

RECEIVER

START

ACKNOWLEDGE

DS800010-13

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NM24C16U/17U Rev. B.1

Refer to the following table for Slave Addresses string details:

Write Cycle Timing (Continued)

TheNM24C16U/17Udevicewillalwaysrespondwithanacknowl-

edge after recognition of a start condition and its slave address. If

both the device and a write operation have been selected, the

NM24C16U/17U will respond with an acknowledge after the

receipt of each subsequent eight bit byte.

Device

A0 A1 A2 Page

Blocks

Page Block

Addresses

NM24C16U/17U

000 001 010 011 ... 111

P: Refers to an internal PAGE BLOCK memory segment.

In the read mode the NM24C16U/17U slave will transmit eight bits

of data, release the SDA line and monitor the line for an acknowl-

edge. If an acknowledge is detected and no stop condition is

generated by the master, the slave will continue to transmit data.

If an acknowledge is not detected, the slave will terminate further

data transmissions and await the stop condition to return to the

standby power mode.

All IIC EEPROMs use an internal protocol that defines a PAGE

BLOCK size of 2K bits (for Word addressess 0000 through 1111).

Therefore, address bits A0, A1, or A2 (if designated 'P') are used

to access a PAGE BLOCK in conjunction with the Word address

used to access any individual data byte (Word).

The last bit of the slave address defines whether a write or read

condition is requested by the master. A '1' indicates that a read

operation is to be executed, and a '0' initiates the write mode.

Device Addressing

Following a start condition the master must output the address of

the slave it is accessing. The most significant four bits of the slave

address are those of the device type identifier (see Figure 5). This

is fixed as 1010 for all EEPROM devices.

A simple review: After the NM24C16U/17U recognizes the start

condition, the devices interfaced to the IIC bus wait for a slave

address to be transmitted over the SDA line. If the transmitted

slave address matches an address of one of the devices, the

designated slave pulls the line LOW with an acknowledge signal

and awaits further transmissions.

Slave Addresses (Figure 5)

Device Type

Identifier

A0 R/W (LSB)

NM24C16U/17U

Page

Block Address

DS800010-14

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NM24C16U/17U Rev. B.1

Acknowledge Polling

Write Operations

Once the stop condition is issued to indicate the end of the host’s

write operation the NM24C16U/17U initiates the internal write

cycle. ACK polling can be initiated immediately. This involves

issuing the start condition followed by the slave address for a write

operation. If the NM24C16U/17U is still busy with the write

operation no ACK will be returned. If the NM24C16U/17U has

completed the write operation an ACK will be returned and the

host can then proceed with the next read or write operation.

BYTE WRITE

For a write operation a second address field is required which is

awordaddressthatiscomprisedofeightbitsandprovidesaccess

to any one of the 256 bytes in the selected page of memory. Upon

receipt of the byte address the NM24C16U/17U responds with an

acknowledge and waits for the next eight bits of data, again,

responding with an acknowledge. The master then terminates the

transfer by generating a stop condition, at which time the

NM24C16U/17U begins the internal write cycle to the nonvolatile

memory. While the internal write cycle is in progress the

NM24C16U/17U inputs are disabled, and the device will not

respond to any requests from the master. Refer to Figure 6 for the

address, acknowledge and data transfer sequence.

Write Protection (NM24C17U Only)

Programming of the upper half of the memory will not take place

if the WP pin of the NM24C17U is connected to V . The

NM24C17U will accept slave and byte addresses; but if the

memoryaccessediswriteprotectedbytheWPpin,theNM24C17U

will not generate an acknowledge after the first byte of data has

beenreceived,andthustheprogramcyclewillnotbestartedwhen

the stop condition is asserted.

PAGE WRITE

The NM24C16U/17U is capable of a sixteen byte page write

operation. It is initiated in the same manner as the byte write

operation; but instead of terminating the write cycle after the first

data byte is transferred, the master can transmit up to fifteen more

bytes. After the receipt of each byte, the NM24C16U/17U will

respond with an acknowledge.

After the receipt of each byte, the internal address counter

incrementstothenextaddressandthenextSDAdataisaccepted.

If the master should transmit more than sixteen bytes prior to

generating the stop condition, the address counter will "roll over"

andthepreviouslywrittendatawillbeoverwritten. Aswiththebyte

write operation, all inputs are disabled until completion of the

internal write cycle. Refer to Figure 7 for the address, acknowl-

edge, and data transfer sequence.

Byte Write (Figure 6)

SLAVE

ADDRESS

WORD

ADDRESS

Bus Activity:

Master

DATA

SDA Line

Bus Activity:

NM24C16U/17U

DS800010-15

Page Write (Figure 7)

SLAVE

ADDRESS

Bus Activity:

Master

WORD ADDRESS (n)

DATA n

DATA n + 1

DATA n + 15

SDA Line

Bus Activity:

NM24C16U/17U

DS800010-16

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NM24C16U/17U Rev. B.1

start condition and the slave address with the R/W bit set to one.

ThiswillbefollowedbyanacknowledgefromtheNM24C16U/17U

andthenbytheeightbitdata.Themasterwillnotacknowledgethe

transfer but does generate the stop condition, and therefore the

NM24C16U/17U discontinues transmission. Refer to Figure 9 for

the address, acknowledge and data transfer sequence.

Read Operations

Read operations are initiated in the same manner as write

operations, with the exception that the R/W bit of the slave

address is set to a one. There are three basic read operations:

current address read, random read, and sequential read.

Current Address Read

Sequential Read

Internally the NM24C16U/17U contains an address counter that

maintains the address of the last byte accessed, incremented by

one. Therefore, if the last access (either a read or write) was to

address n, the next read operation would access data from

address n + 1. Upon receipt of the slave address with R/W set to

one, the NM24C16U/17U issues an acknowledge and transmits

the eight bit byte. The master will not acknowledge the transfer

butdoesgenerateastopcondition,andthereforetheNM24C16U/

17U discontinues transmission. Refer to Figure 8 for the se-

quence of address, acknowledge and data transfer.

Sequential reads can be initiated as either a current address read

or random access read. The first word is transmitted in the same

manner as the other read modes; however, the master now

responds with an acknowledge, indicating it requires additional

data. The NM24C16U/17U continues to output data for each

acknowledge received. The read operation is terminated by the

master not responding with an acknowledge or by generating a

stop condition.

The data output is sequential, with the data from address n

followed by the data from n + 1. The address counter for read

operations increments all word address bits, allowing the entire

memory contents to be serially read during one operation. After

the entire memory has been read, the counter "rolls over" and the

NM24C16U/17U continues to output data for each acknowledge

received. Refer to Figure 10 for the address, acknowledge, and

data transfer sequence.

Random Read

Randomreadoperationsallowthemastertoaccessanymemory

location in a random manner. Prior to issuing the slave address

with the R/W bit set to one, the master must first perform a

“dummy” write operation. The master issues the start condition,

slave address and then the byte address it is to read. After the

byte address acknowledge, the master immediately reissues the

Current Address Read (Figure 8)

SLAVE

ADDRESS

Bus Activity:

Master

SDA Line

Bus Activity:

NM24C16U/17U

DATA

DS800010-17

Random Read (Figure 9)

SLAVE

ADDRESS

WORD

ADDRESS

SLAVE

Bus Activity:

Master

ADDRESS

SDA Line

DATA n

Bus Activity:

NM24C16U/17U

DS800010-18

Sequential Read (Figure 10)

Bus Activity:

Slave

Master

Address

SDA Line

DATA n +1

DATA n + 2

DATA n + x

Bus Activity:

NM24C16U/17U

DS800010-19

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NM24C16U/17U Rev. B.1

Physical Dimensions inches (millimeters) unless otherwise noted

0.189 - 0.197

(4.800 - 5.004)

0.228 - 0.244

(5.791 - 6.198)

Lead #1

IDENT

0.150 - 0.157

0.053 - 0.069

(1.346 - 1.753)

(3.810 - 3.988)

0.010 - 0.020

(0.254 - 0.508)

0.004 - 0.010

(0.102 - 0.254)

x 45°

8° Max, Typ.

All leads

Seating

Plane

0.04

0.0075 - 0.0098

(0.190 - 0.249)

Typ. All Leads

(0.102)

All lead tips

0.014

(0.356)

0.016 - 0.050

(0.406 - 1.270)

Typ. All Leads

0.050

(1.270)

Typ

0.014 - 0.020

(0.356 - 0.508)

Typ.

8-Pin Molded Small Outline Package (M8)

Package Number M08A

0.114 - 0.122

(2.90 - 3.10)

(7.72) Typ

(4.16) Typ

0.169 - 0.177

(4.30 - 4.50)

0.246 - 0.256

(6.25 - 6.5)

(1.78) Typ

(0.42) Typ

0.123 - 0.128

(3.13 - 3.30)

(0.65) Typ

Land pattern recommendation

Pin #1 IDENT

0.0433

Max

(1.1)

0.0035 - 0.0079

See detail A

0.002 - 0.006

(0.05 - 0.15)

0.0256 (0.65)

Typ.

Gage

plane

0.0075 - 0.0098

(0.19 - 0.30)

0°-8°

DETAIL A

Typ. Scale: 40X

0.0075 - 0.0098

(0.19 - 0.25)

0.020 - 0.028

(0.50 - 0.70)

Seating

plane

Notes: Unless otherwise specified

1. Reference JEDEC registration MO153. Variation AA. Dated 7/93

8-Pin Molded Thin Shrink Small Outline Package

Package Number MTC08

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NM24C16U/17U Rev. B.1

Physical Dimensions inches (millimeters) unless otherwise noted

0.373 - 0.400

(9.474 - 10.16)

0.090

(2.286)

0.032 ± 0.005

(0.813 ± 0.127)

RAD

0.092

(2.337)

DIA

0.250 - 0.005

(6.35 ± 0.127)

Pin #1

IDENT

Pin #1 IDENT

Option 1

Option 2

0.280

MIN

0.040

(1.016)

Typ.

(7.112)

0.030

0.145 - 0.200

(3.683 - 5.080)

0.039

(0.991)

MAX

(0.762)

0.300 - 0.320

(7.62 - 8.128)

20° ± 1°

0.130 ± 0.005

(3.302 ± 0.127)

0.125 - 0.140

95° ± 5°

(3.175 - 3.556)

0.065

(1.651)

0.125

(3.175)

DIA

0.020

90° ± 4°

Typ

0.009 - 0.015

(0.229 - 0.381)

(0.508)

Min

0.018 ± 0.003

(0.457 ± 0.076)

NOM

+0.040

-0.015

0.325

0.100 ± 0.010

+1.016

-0.381

8.255

(2.540 ± 0.254)

0.045 ± 0.015

(1.143 ± 0.381)

0.060

(1.524)

0.050

(1.270)

Molded Dual-In-Line Package (N)

Package Number N08E

Life Support Policy

Fairchild's products are not authorized for use as critical components in life support devices or systems without the express written

approval of the President of Fairchild Semiconductor Corporation. As used herein:

1. Life support devices or systems are devices or systems which,

(a)areintendedforsurgicalimplantintothebody,or(b)support

or sustain life, and whose failure to perform, when properly

used in accordance with instructions for use provided in the

labeling, can be reasonably expected to result in a significant

injury to the user.

2. A critical component is any component of a life support device

or system whose failure to perform can be reasonably ex-

pected to cause the failure of the life support device or system,

or to affect its safety or effectiveness.

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Tel. 1-888-522-5372

Fax:

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Tel: 81-3-3818-8840

Fax: 81-3-3818-8841

Fairchild does not assume any responsibility for use of any circuitry described, no circuit patent licenses are implied and Fairchild reserves the right at any time without notice to change said circuitry and specifications.

www.fairchildsemi.com

NM24C16U/17U Rev. B.1

NM24C17UFTLZMT8 [FAIRCHILD]

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