DS1972-F3+ Maxim Integrated Products, DS1972-F3+ Datasheet - Page 13
DS1972-F3+
Manufacturer Part Number
DS1972-F3+
Description
IBUTTON EEPROM 1KBit F3
Manufacturer
Maxim Integrated Products
Series
iButton®r
Datasheet
1.DS1972-F3.pdf
(23 pages)
Specifications of DS1972-F3+
Rohs Information
IButton RoHS Compliance Plan
Memory Size
128B
Memory Type
EEPROM
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
All transactions on the 1-Wire bus begin with an initial-
ization sequence. The initialization sequence consists
of a reset pulse transmitted by the bus master followed
by presence pulse(s) transmitted by the slave(s). The
presence pulse lets the bus master know that the
DS1972 is on the bus and is ready to operate. For more
details, see the 1-Wire Signaling section.
Once the bus master has detected a presence, it can
issue one of the seven ROM function commands the
DS1972 supports. All ROM function commands are 8
bits long. A list of these commands follows (see the
flowchart in Figure 9).
The Read ROM command allows the bus master to read
the DS1972’s 8-bit family code, unique 48-bit serial num-
ber, and 8-bit CRC. This command can only be used if
there is a single slave on the bus. If more than one slave
is present on the bus, a data collision occurs when all
slaves try to transmit at the same time (open drain pro-
duces a wired-AND result). The resultant family code and
48-bit serial number result in a mismatch of the CRC.
The Match ROM command, followed by a 64-bit ROM
sequence, allows the bus master to address a specific
DS1972 on a multidrop bus. Only the DS1972 that exact-
ly matches the 64-bit ROM sequence responds to the
subsequent memory function command. All other slaves
wait for a reset pulse. This command can be used with a
single device or multiple devices on the bus.
Figure 8. Hardware Configuration
______________________________________________________________________________________
1-Wire ROM Function
Rx
Tx
BUS MASTER
Match ROM [55h]
OPEN-DRAIN
Read ROM [33h]
PORT PIN
Initialization
Commands
Tx = TRANSMIT
Rx = RECEIVE
V
1024-Bit EEPROM iButton
PUP
R
PUP
When a system is initially brought up, the bus master
might not know the number of devices on the 1-Wire
bus or their registration numbers. By taking advantage
of the wired-AND property of the bus, the master can
use a process of elimination to identify the registration
numbers of all slave devices. For each bit of the regis-
tration number, starting with the least significant bit, the
bus master issues a triplet of time slots. On the first slot,
each slave device participating in the search outputs
the true value of its registration number bit. On the sec-
ond slot, each slave device participating in the search
outputs the complemented value of its registration num-
ber bit. On the third slot, the master writes the true
value of the bit to be selected. All slave devices that do
not match the bit written by the master stop participat-
ing in the search. If both of the read bits are zero, the
master knows that slave devices exist with both states
of the bit. By choosing which state to write, the bus
master branches in the ROM code tree. After one com-
plete pass, the bus master knows the registration num-
ber of a single device. Additional passes identify the
registration numbers of the remaining devices. Refer to
Application Note 187: 1-Wire Search Algorithm for a
detailed discussion, including an example.
This command can save time in a single-drop bus sys-
tem 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, for
example, a read command is issued following the Skip
ROM command, data collision occurs on the bus as
multiple slaves transmit simultaneously (open-drain
pulldowns produce a wired-AND result).
DATA
I
L
DS1972 1-Wire PORT
100Ω MOSFET
Rx
Tx
Search ROM [F0h]
Skip ROM [CCh]
13
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