MAXIM DS2502P-E48+

19-5071; 12/09
DS2502-E48
48-Bit Node Address Chip
www.maxim-ic.com
FEATURES










PIN CONFIGURATION
Factory programmed 48-bit node address
chip with 768 bits user-programmable OTPEPROM communicates with the economy of
one signal plus ground
Provides valid MAC-48/EUI-48 Ethernet
address
Unique, factory lasered and tested 64-bit
registration number assures absolute
traceability because no two parts are alike
Built-in multidrop controller ensures
compatibility with other 1-Wire® products
Device is an “add-only” memory where
additional data can be programmed into
EPROM without disturbing existing data
Reduces control, address, data, power and
programming signals to a single pin
Directly connects to a single port pin of a
microprocessor and communicates at up to
16.3kbps
Presence detector acknowledges when reader
first applies voltage
Low cost TO-92 or TSOC surface mount
packages
Reads over a wide voltage range of 2.8V to
6.0V from -40°C to +85°C; programs at
11.5V to 12.0V from -40°C to + 50°C
TO-92
BOTTOM VIEW
TSOC PACKAGE
TOP VIEW
ORDERING INFORMATION
PART
1-Wire is a registered trademark of Maxim Integrated Products, Inc.
TEMP
PINRANGE
PACKAGE
DS2502-E48+
-40°C to +85°C 3 TO-92
DS2502P-E48+
-40°C to +85°C 6 TSOC
DS2502P-E48+T&R -40°C to +85°C 6 TSOC
+ Denotes a lead(Pb)-free/RoHS-compliant package.
T&R = Tape and reel.
DESCRIPTION
The DS2502-E48 is a variant of the DS2502 1024-bit add-only memory. It differs from the standard
DS2502 in its custom ROM family code 89h, and the UniqueWare Identifier 5E7h in place of the upper
12 bits of the standard ROM serialization field. Otherwise, the electrical and logical behavior is identical
to that of the DS2502. For technical details please refer to the DS2502 data sheet.
Note: Some revisions of this device may incorporate deviations from published specifications known as errata. Multiple revisions of any device
may be simultaneously available through various sales channels. For information about device errata, click here: www.maxim-ic.com/errata.
1 of 4
DS2502-E48
The first 32 bytes of the DS2502-E48’s EPROM memory contain a globally unique 48-bit node address
and are write-protected. The data structure follows the conventions of UniqueWare devices using Default
Data Structure (Figure 1). This format is also known as UDP (universal data packet) and is commonly
used in 1-Wire APIs. Therefore, if using one of those APIs one can call a high level function to read and
verify the inverted CRC16. The UDP is defined in Application Note 114, 1-Wire File Structure, and the
APIs can be found in the 1-Wire Software Development Kits.
Figure 1. NODE ADDRESS CHIP DATA STRUCTURE
(UNUSED)
CRC16
MSB
19 BYTES
FFh
LSB
2 BYTES
COMPANY ID VALUE
MSB
LSB
3 BYTES CONSTANT
006035h
EXTENSION ID VALUE
MSB
PROJECT ID
LSB
MSB
LSB
LENGTH
4 BYTES CONSTANT
00001129h
3 BYTES SERIALIZATION
HIGH ADDRESS
1 BYTE
0Ah
LOW ADDRESS
The data record starts with a length byte (0Ah) and the 4-byte UniqueWare Project ID 00001129h. The
next 6 bytes contain the 48-bit node address which consists of an incrementing 24-bit extension identifier
and the IEEE-assigned 24-bit company ID value 006035h. An inverted 16-bit CRC ends the data record.
The remaining bytes of the 32-byte memory page remain unprogrammed. Neither the 24-bit extension
identifier nor the 24-bit company ID are related to the 64-bit ROM registration number. The ROM
registration number is used to provide a unique address to access the DS2502-E48 when multidropped on
a 1-Wire bus.
EXAMPLE
Assume that a manufacturer’s company ID value is 006035h and the 24-bit extension identifier is
67ABCDh. The 48-bit node address value generated from these two numbers is 00603567ABCDh, whose
byte and bit representations are illustrated in Figure 2.
Figure 2. SAMPLE NODE ADDRESS VALUE
MOST SIGNIFICANT BYTE
LEAST SIGNIFICANT BYTE
00
60
35
67
AB
CD
0000 0000
0110 0000
0011 0101
0110 0111
1010 1011
1100 1101
MOST SIGNIFICANT BIT
HEX
BINARY
LEAST SIGNIFICANT BIT
This information is stored in the DS2502-E48 as 48-bit number with the least significant byte at the lower
address. Including the length byte and the inverted CRC, the complete set of data is shown in Figure 3.
Figure 3. PHYSICAL ADDRESS AND DATA MAPPING INSIDE THE DEVICE
ADDRESS
0C
0B
0A
09
08
07
06
05
04
03
02
01
00
DATA
8D
DD
00
60
35
67
AB
CD
00
00
11
29
0A
2 of 4
DS2502-E48
The four bytes at memory addresses 01h to 04h contain the UniqueWare Project ID 00001129h. The two
bytes at addresses 0Bh and 0Ch are the inverted 16-bit CRC over the length byte, Project ID and node
address value. The least significant byte of the CRC is stored at address 0Bh. This CRC is generated
according to the standardized CRC16 polynomial function X16 + X15 + X2 + 1. For more details on
generating CRC values including examples in both hardware and software, see Application Note 27,
Understanding and Using Cyclic Redundancy Checks with Maxim iButton Products.
The contents of the memory address range 0Dh to 1Fh is FFh. These cells cannot be altered since the
whole memory page is write-protected. The memory range from 20h to 7Fh, however, is userprogrammable. It can be write-protected by programming the corresponding write-protect bit in the status
memory of the DS2502-E48.
3 of 4
DS2502-E48
REVISION HISTORY
REVISION
DATE
DESCRIPTION
Changed the Ordering Information to lead free.
12/09
PAGES
CHANGED
1
Included an explanation of “Default Data Structure” above Figure 1.
2
Emphasized that the 16-bit CRC is inverted.
2
Deleted paragraph on how to set up a UniqueWare project.
2
Inserted actual CRC value to Figure 3.
2
Reformatted Figures 1 to 3.
2
Corrected notation of hexadecimal numbers from H to h.
4 of 4
1, 2, 3