DS2430AP_技术文档

DS2430A

256-Bit 1-Wire^TMEEPROM

www.dalsemi.com

FEATURES

PIN ASSIGNMENT

§ 256-bit Electrically Erasable Programmable

Read Only Memory (EEPROM) plus 64-bit

one-time programmable application register

§ Unique, factory-lasered and tested 64-bit

registration number (8-bit family code + 48-bit

serial number + 8-bit CRC tester) assures

absolute identity because no two parts are alike

§ Built-in multidrop controller ensures

compatibility with other MicroLAN products

§ EEPROM organized as one page of 32 bytes

for random access

TO-92

DALLAS

DS2430A

TSOC PACKAGE

1

2

3

6

5

4

TOP VIEW

3.7 X 4.0 X 1.5 mm

§ Reduces control, address, data and power to a

single data pin

SIDE VIEW

1

2 3

§ Directly connects to a single port pin of a

microprocessor and communicates at up to

16.3 kbits per second

See Mech.

Drawing Section

§ 8-bit family code specifies DS2430A

communication requirements to reader

§ Presence detector acknowledges when reader

first applies voltage

§ Low cost TO-92 or 6-pin TSOC surface mount

package

1 2 3

BOTTOM VIEW

See Mech.

Drawings Section

§ Reads and writes over a wide voltage range of

2.8V to 6.0V from -40°C to +85°C

PIN DESCRIPTION

TO-92

Ground

Data

TSOC

ORDERING INFORMATION

Pin 1

Pin 2

Pin 3

Pin 4

Pin 5

Pin 6

Ground

Data

NC

DS2430A

TO-92 package

DS2430AP 6-pin TSOC package

NC

DS2430AT Tape & Reel version of DS2430A

DS2430AV Tape & Reel version of DS2430AP

DS2430AX Chip Scale Pkg., Tape & Reel

––––

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DS2430A

SILICON LABEL DESCRIPTION

The DS2430A 256-bit 1-Wire EEPROM identifies and stores relevant information about the product to

which it is associated. This lot or product specific information can be accessed with minimal interface, for

example a single port pin of a microcontroller. The DS2430A consists of a factory-lasered registration

number that includes a unique 48-bit serial number, an 8-bit CRC, and an 8-bit Family Code (14h) plus

256 bits of user-programmable EEPROM and a 64-bit one-time programmable application register. The

power to read and write the DS2430A is derived entirely from the 1-Wire communication line. Data is

transferred serially via the 1-Wire protocol which requires only a single data lead and a ground return.

The 48-bit serial number that is factory-lasered into each DS2430A provides a guaranteed unique identity

which allows for absolute traceability. The TO-92 and TSOC packages provide a compact enclosure that

allows standard assembly equipment to handle the device easily for attachment to printed circuit boards

or wiring. Typical applications include storage of calibration constants, board identification and product

revision status.

OVERVIEW

The block diagram in Figure 1 shows the relationships between the major control and memory sections of

the DS2430A. The DS2430A has four main data components: 1) 64-bit lasered ROM, 2) 256-bit

EEPROM data memory with scratchpad, 3) 64-bit one-time programmable application register with

scratchpad and 4) 8-bit Status Memory. The hierarchical structure of the 1-Wire protocol is shown in

Figure 2. The bus master must first provide one of the four ROM Function Commands: 1) Read ROM, 2)

Match ROM, 3) Search ROM, 4) Skip ROM. The protocol required for these ROM Function Commands

is described in Figure 8. After a ROM Function Command is successfully executed, the memory

functions become accessible and the master may provide any one of the four memory function

commands. The protocol for these memory function commands is described in Figure 6. All data is read

and written least significant bit first.

64-BIT LASERED ROM

Each DS2430A contains a unique ROM code that is 64 bits long. The first 8 bits are a 1-Wire family code

(14h). The next 48 bits are a unique serial number. The last 8 bits are a CRC of the first 56 bits. (Figure

3). The 1-Wire CRC is generated using a polynomial generator consisting of a shift register and XOR

gates as shown in Figure 4. The polynomial is X⁸+ X⁵+ X⁴+ 1. Additional information about the Dallas

1-Wire Cyclic Redundancy Check is available in the Book of DS19xx iButton Standards. The shift

register bits are initialized to 0. Then starting with the least significant bit of the family code, 1 bit at a

time is shifted in. After the 8^thbit of the family code has been entered, then the serial number is entered.

After the 48^thbit of the serial number has been entered, the shift register contains the CRC value. Shifting

in the 8 bits of CRC should return the shift register to all 0s.

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DS2430A

DS2430A BLOCK DIAGRAM Figure 1

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DS2430A

HIERARCHICAL STRUCTURE FOR 1-WIRE PROTOCOL Figure 2

64-BIT LASERED ROM Figure 3

8-Bit CRC Code

48-Bit Serial Number

8-Bit Family Code (14H)

MSB

LSB MSB

LSB

1-WIRE CRC GENERATOR Figure 4

Polynomial = X⁸+ X⁵+ X⁴+ 1

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DS2430A

MEMORY

The memory of the DS2430A consists of three separate sections, called data memory, application register

and status register (Figure 5). The data memory and the application register each has its own intermediate

storage area called scratchpad that acts as a buffer when writing to the device. The data memory can be

read and written as often as desired. The application register, however, is one-time programmable only.

Once the application register is programmed, it is automatically write protected. The status register will

indicate if the application register is already locked or if it is still available for storing data. As long as the

application register is unprogrammed, the status register will read FFh. Copying data from the register

scratchpad to the application register will clear the 2 least significant bits of the status register, yielding a

FCh the next time one reads the status register.

DS2430A MEMORY MAP Figure 5

MEMORY FUNCTION COMMANDS

The “Memory Function Flow Chart” (Figure 6) describes the protocols necessary for accessing the

different memory sections of the DS2430A. An example is shown later in this document.

WRITE SCRATCHPAD [0Fh]

After issuing the Write Scratchpad command, the master must first provide a 1-byte address, followed by

the data to be written to the scratchpad for the data memory. The DS2430A will automatically increment

the address after every byte it received. After having received a data byte for address 1Fh, the address

counter will wrap around to 00h for the next byte and writing continues until the master sends a reset

pulse.

READ SCRATCHPAD [AAh]

This command is used to verify data previously written to the scratchpad before it is copied into the final

storage EEPROM memory. After issuing the Read Scratchpad command, the master must provide the 1-

byte starting address from where data is to be read. The DS2430A will automatically increment the

address after every byte read by the master. After the data of address 1Fh has been read, the address

counter will wrap around to 00h for the next byte and reading continues until the master sends a reset

pulse.

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MEMORY FUNCTION FLOW CHART Figure 6

COPY SCRATCHPAD [55h]

After the data stored in the scratchpad has been verified the master may send the Copy Scratchpad

command followed by a validation key of A5h to transfer data from the scratchpad to the EEPROM

memory. This command will always copy the data of the entire scratchpad. Therefore, if one desires to

change only a few bytes of the EEPROM data, the scratchpad should contain a copy of the latest

EEPROM data before the Write Scratchpad and Copy Scratchpad commands are issued. After this

command is issued, the data line must be held at logic high level for at least 10 ms.

READ MEMORY [F0h]

The Read Memory command is used to read a portion or all of the EEPROM data memory and to copy

the entire data memory into the scratchpad to prepare for changing a few bytes. To copy data from the

data memory to the scratchpad and to read it, the master must issue the read memory command followed

by the 1-byte starting address from where data is to be read from the scratchpad. The DS2430A will

automatically increment the address after every byte read by the master. After the data of address 1Fh has

been read, the address counter will wrap around to 00h for the next byte and reading continues until the

master sends a reset pulse. If one intends to copy the entire data memory to the scratchpad without

reading data, a starting address is not required; the master may send a reset pulse immediately following

the command code.

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DS2430A

MEMORY FUNCTION FLOW CHART Figure 6 (cont’d)

WRITE APPLICATION REGISTER [99h]

This command is essentially the same as the Write Scratchpad command, but it addresses the 64-bit

register scratchpad. After issuing the command code, the master must provide a 1-byte address, followed

by the data to be written. The DS2430A will automatically increment the address after every byte it

received. After having received a data byte for address 07h, the address counter will wrap around to 00h

for the next byte and writing continues until the master sends a reset pulse. The Write Application

Register command can be used as long as the application register has not yet been locked. If issued for a

device with the application register locked, the data written to the register scratchpad will be lost.

READ STATUS REGISTER [66h]

The status register is a means for the master to find out if the application register has been programmed

and locked. After issuing the read status register command, the master must provide the validation key

00h before receiving status information. The two least significant bits of the 8-bit status register will be 0

if the application register was programmed and locked; all other bits will always read 1. The master may

finish the read status command by sending a reset pulse at any time.

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DS2430A

MEMORY FUNCTION FLOW CHART Figure 6 (cont’d)

READ APPLICATION REGISTER [C3h]

This command is used to read the application register or the register scratchpad. As long as the

application register is not yet locked, one will receive data from the register scratchpad. After the

application register is locked the DS2430A will transmit data from the application register, making the

register scratchpad inaccessible for reading. The contents of the status register indicates where the data

received with this command came from. After issuing the Read Application Register command, the

master must provide the 1-byte starting address from where data is to be read. The DS2430A will

automatically increment the address after every byte read by the master. After the data of address 07h has

been read, the address counter will wrap around to 00h for the next byte and reading continues until the

master sends a reset pulse.

COPY & LOCK APPLICATION REGISTER [5Ah]

After the data stored in the register scratchpad has been verified the master may send the Copy & Lock

Application Register command followed by a validation key of A5h to transfer the contents of the entire

register scratchpad to the application register and to simultaneously write-protect it. The master may

cancel this command by sending a reset pulse instead of the validation key. After the validation key was

transmitted, the application register will contain the data of the register scratchpad. Further write accesses

to the application register will be denied. The Copy & Lock Application Register command can only

be executed once.

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DS2430A

1-WIRE BUS SYSTEM

The 1-Wire bus is a system which has a single bus master and one or more slaves. In all instances, the

DS2430A is a slave device. The bus master is typically a microcontroller. The discussion of this bus

system is broken down into three topics: hardware configuration, transaction sequence, and 1-Wire

signaling (signal type and timing). A 1-Wire protocol defines bus transactions in terms of the bus state

during specified time slots that are initiated on the falling edge of sync pulses from the bus master. For a

more detailed protocol description, refer to Chapter 4 of the Book of DS19xx iButton Standards.

Hardware Configuration

The 1-Wire bus has only a single line by definition; it is important that each device on the bus be able to

drive it at the appropriate time. To facilitate this, each device attached to the 1-Wire bus must have open

drain connection or 3-state outputs. The 1-Wire port of the DS2430A is open drain with an internal circuit

equivalent to that shown in Figure 7. A multidrop bus consists of a 1-Wire bus with multiple slaves

attached. The 1-Wire bus has a maximum data rate of 16.3k bits per second and requires a pullup resistor

of approximately 5 kW.

The idle state for the 1-Wire bus is high. If for any reason a transaction needs to be suspended, the bus

MUST be left in the idle state if the transaction is to resume. If this does not occur and the bus is left low

for more than 120 µs, one or more of the devices on the bus may be reset.

HARDWARE CONFIGURATION Figure 7

*5 kW is adequate for reading the DS2430A. To write to a single device, a 2.2 kW resistor and V_PUPof at

least 4.0V is sufficient. For writing multiple DS2430As simultaneously or operation at low V_PUP, the

resistor should be bypassed by a low-impedance pullup to V_PUPwhile the device copies the scratchpad to

EEPROM.

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DS2430A

ROM FUNCTIONS FLOW CHART Figure 8

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DS2430A

Transaction Sequence

The sequence for accessing the DS2430A via the 1-Wire port is as follows:

§ Initialization

§ ROM Function Command

§ Memory Function Command

§ Transaction/Data

INITIALIZATION

All transactions on the 1-Wire bus begin with an initialization sequence. The initialization sequence

consists of a reset pulse transmitted by the bus master followed by a presence pulse(s) transmitted by the

slave(s).

The presence pulse lets the bus master know that the DS2430A is on the bus and is ready to operate. For

more details, see the “1-Wire Signaling” section.

ROM FUNCTION COMMANDS

Once the bus master has detected a presence, it can issue one of the four ROM function commands. All

ROM function commands are 8 bits long. A list of these commands follows (refer to flowchart in Figure

8):

Read ROM [33h]

This command allows the bus master to read the DS2430A’s 8-bit family code, unique 48-bit serial

number, and 8-bit CRC. This command can be used only if there is a single DS2430A on the bus. If more

than one slave is present on the bus, a data collision will occur when all slaves try to transmit at the same

time (open drain will produce a wired-AND result). The resultant family code and 48-bit serial number

will usually result in a mismatch of the CRC.

Match ROM [55h]

The Match ROM command, followed by a 64-bit ROM sequence, allows the bus master to address a

specific DS2430A on a multidrop bus. Only the DS2430A that exactly matches the 64-bit ROM sequence

will respond to the subsequent memory function command. All slaves that do not match the 64-bit ROM

sequence will wait for a reset pulse. This command can be used with a single or multiple devices on the

bus.

Skip ROM [CCh]

This command can save time in a single-drop bus system by allowing the bus master to access the

memory functions without providing the 64-bit ROM code. If more than one slave is present on the bus

and a read command is issued following the Skip ROM command, data collision will occur on the bus as

multiple slaves transmit simultaneously (open drain pulldowns will produce a wired-AND result).

Search ROM [F0h]

When a system is initially brought up, the bus master might not know the number of devices on the 1-

Wire bus or their 64-bit ROM codes. The Search ROM command allows the bus master to use a process

of elimination to identify the 64-bit ROM codes of all slave devices on the bus. The Search ROM process

is the repetition of a simple, three-step routine: read a bit, read the complement of the bit, then write the

desired value of that bit. The bus master performs this simple, three-step routine on each bit of the ROM.

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DS2430A

After one complete pass, the bus master knows the contents of the ROM in one device. The remaining

number of devices and their ROM codes may be identified by additional passes. See Chapter 5 of the

Book of DS19xx iButton Standards for a comprehensive discussion of a search ROM, including an actual

example.

1-Wire Signaling

The DS2430A requires strict protocols to insure data integrity. The protocol consists of four types of

signaling on one line: Reset Sequence with Reset Pulse and Presence Pulse, Write 0, Write 1 and Read

Data. All these signals except presence pulse are initiated by the bus master. The initialization sequence

required to begin any communication with the DS2430A is shown in Figure 9. A reset pulse followed by

a presence pulse indicates the DS2430A is ready to accept a ROM command. The bus master transmits

(TX) a reset pulse (t_RSTL, minimum 480 µs). The bus master then releases the line and goes into receive

mode (RX). The 1-Wire bus is pulled to a high state via the pullup resistor. After detecting the rising edge

on the data pin, the DS2430A waits (t_PDH, 15-60 µs) and then transmits the presence pulse (t_PDL, 60-240

µs).

INITIALIZATION PROCEDURE “RESET AND PRESENCE PULSES” Figure 9

In order not to mask interrupt signaling by other devices on the 1-Wire bus, t_RSTL+ t_Rshould always be

less than 960 µs.

Read/Write Time Slots

The definitions of write and read time slots are illustrated in Figure 10. All time slots are initiated by the

master driving the data line low. The falling edge of the data line synchronizes the DS2430A to the

master by triggering a delay circuit in the DS2430A. During write time slots, the delay circuit determines

when the DS2430A will sample the data line. For a read data time slot, if a “0” is to be transmitted, the

delay circuit determines how long the DS2430A will hold the data line low overriding the 1 generated by

the master. If the data bit is a “1”, the DS2430A will leave the read data time slot unchanged.

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DS2430A

READ/WRITE TIMING DIAGRAM Figure 10

Write-1 Time Slot

Write-0 Time Slot

Read-data Time Slot

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DS2430A

MEMORY FUNCTION EXAMPLE

Example: Write 2 data bytes to data memory location 0006 and 0007. Read entire data memory.

MASTER MODE DATA (LSB FIRST)

COMMENTS

Reset pulse (480-960 µs)

Presence pulse

Issue “Skip ROM” command

Issue “Read Memory” command

Reset pulse (480-960 µs)

Presence pulse

Issue “Skip ROM” command

Issue “Write Scratchpad” command

Start address = 06h

Write 2 bytes of data to scratchpad

Reset pulse

Presence pulse

Issue “Skip ROM” command

Issue “Read Scratchpad” command

Start address = 06h

Read scratchpad data and verify

Reset pulse

TX

RX

TX

RX

TX

RX

TX

RX

TX

RX

TX

Reset

Presence

CCh

F0h

Reset

Presence

CCh

0Fh

06h

<2 data bytes>

Reset

Presence

CCh

AAh

06h

<2 data bytes>

Reset

Presence

CCh

Presence pulse

Issue “Skip ROM” command

Issue “Copy Scratchpad” command

Validation key

55h

A5h

Data line is held high for 10 ms by the bus master to

provide energy for copying data from the scratchpad to

EEPROM

TX

TX

RX

TX

RX

TX

RX

Reset

Presence

CCh

F0h

00h

<32 bytes>

Reset

Presence

Reset pulse

Presence pulse

Issue “Skip ROM” command

Issue “Read Memory” command

Start address = 00h

Read EEPROM data page

Reset pulse

Presence pulse

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DS2430A

ABSOLUTE MAXIMUM RATINGS*

Voltage on DATA to Ground

Operating Temperature

-0.5V to +7.0V

-40°C to +85°C

Storage Temperature

Soldering Temperature

-55°C to +125°C

260°C for 10 seconds

* This is a stress rating only and functional operation of the device at these or any other conditions

above those indicated in the operation sections of this specification is not implied. Exposure to

absolute maximum rating conditions for extended periods of time may affect reliability.

DC ELECTRICAL CHARACTERISTICS

(-40°C to +85°C; V_PUP=2.8V to 6.0V)

PARAMETER

SYMBOL

MIN

2.2

-0.3

TYP

MAX

UNITS

NOTES

1, 6

1, 9

1

Logic 1

Logic 0

V_IH

V_IL

V_OL

V_OH

I_L

V

+0.8

0.4

Output Logic Low @ 4 mA

Output Logic High

Input Load Current (DATA pin)

Programming Current

V_PUP

5

6.0

V

mA

1, 2

3

I_P

500

CAPACITANCE

PARAMETER

Capacitance

(t_A=25°C)

NOTES

7

SYMBOL

MIN

TYP

MAX

800

UNITS

C_D

pF

ENDURANCE

PARAMETER

(V_PUP=5.0V; t_A=25°C)

SYMBOL

MIN

MAX

UNITS

NOTES

Write/Erase Cycles

N_CYCLE

100k

-

10

AC ELECTRICAL CHARACTERISTICS

(-40°C to +85°C; V_PUP=2.8V to 6.0V)

PARAMETER

Time Slot

SYMBOL

t_SLOT

t_LOW1

t_LOW0

t_LOWR

t_RDV

MIN

60

1

60

1

TYP

MAX

120

15

UNITS

µs

NOTES

Write 1 Low Time

Write 0 Low Time

Read Low Time

Read Data Valid

Release Time

µs

120

15

µs

exactly 15

15

µs

t_RELEASE

t_SU

0

45

1

Read Data Setup

Recovery Time

5

t_REC

1

µs

Reset Time High

Reset Time Low

Presence Detect High

Presence Detect Low

Programming Time

t_RSTH

t_RSTL

t_PDH

t_PDL

t_PROG

480

15

µs

4

8

5000

60

240

10

60

ms

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DS2430A

NOTES:

1. All voltages are referenced to ground.

2. V_PUP=external pullup voltage.

3. Input load is to ground.

4. An additional reset or communication sequence cannot begin until the reset high time has expired.

5. Read data setup time refers to the time the host must pull the 1-Wire bus low to read a bit. Data is

guaranteed to be valid within 1 ms of this falling edge.

6. V_IHis a function of the external pullup resistor and V_PUP

.

7. Capacitance on the data pin could be 800 pF when power is first applied. If a 5 kW resistor is used to

pull up the data line to V_PUP, 5 ms after power has been applied the parasite capacitance will not affect

normal communications.

8. t_RSTLshould be limited to maximum 5 ms. Otherwise the DS2430A may perform a power-on reset.

9. Under certain low voltage conditions V_ILMAXmay have to be reduced to as much as 0.5V to always

guarantee a presence pulse.

10. The Copy Scratchpad takes 10 ms maximum, during which the voltage on the 1-Wire bus must not

fall below 2.8V.

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型号：	DS2430AP
厂家：	DALLAS SEMICONDUCTOR
描述：	256-Bit 1-Wire EEPROM 256位的1-Wire EEPROM 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
文件：	总16页 (文件大小：359K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

DS2430AP [DALLAS]

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