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DS2407N/a51avaiDual Addressable Switch Plus 1 kbit Memory


DS2407 ,Dual Addressable Switch Plus 1 kbit MemoryPIN DESCRIPTION16.3k bits/sTO-92 TSOC Low cost TO-92 or 6-pin TSOC surfacePin 1 Ground Groundmount ..
DS2408 ,1-Wire 8-Channel Addressable SwitchFEATURES PIN CONFIGURATION  Control Eight Independent I/O Port Pins from a Single Micro Port Pin o ..
DS2408 ,1-Wire 8-Channel Addressable Switch DS2408 1-Wire 8-Channel Addressable Switch BENEFITS AND
DS2408S+ ,1-Wire 8-Channel Addressable SwitchFEATURES PIN CONFIGURATION  Control Eight Independent I/O Port Pins from a Single Micro Port Pin o ..
DS2409P+ ,MicroLAN CouplerPIN DESCRIPTIONcontrol outputPin 1 GND Communicates at 16.3kbits per secondPin 2 1-Wire in Unique ..
DS2411 ,Silicon Serial Number with VFEATURES PIN CONFIGURATION  Unique, Factory-Lasered and Tested 64-Bit 3 Registration Number (8-B ..
E53NA50 ,NABSOLUTE MAXIMUM RATINGSSymbol Parameter Value UnitV Drain-source Voltage (V =0) 500 VDS GSV 500 VD ..


DS2407
Dual Addressable Switch Plus 1 kbit Memory
FEATURESOpen drain PIO pins are controlled and their
logic level can be determined over 1-Wire
bus for closed-loop controlDual Channel operation (TSOC package)PIO pin channel. A sink capability of 50 mA
at 0.4V with soft turn-on; channel B 8 mA at
0.4VMaximum operating voltage of 13V at PIO-A, 6.5V at PIO–B1024 bits user-programmable OTP EPROM7 bytes of user-programmable status memory
to control the deviceMultiple DS2407s can be identified on acommon 1-Wire bus and be turned on or off
independently of other devices on the busUnique, factory-lasered and tested 64-bit
registration number (8-bit family code + 48-
bit serial number + 8-bit CRC tester) assureserror-free selection and absolute identity
because no two parts are alikeOn-chip CRC16 generator allows detection
of data transfer errorsBuilt-in multidrop controller ensures
compatibility with other MicroLAN
productsReduces control, address, data, programming
and power to a single data pinDirectly connects to a single port pin of amicroprocessor and communicates at up to
16.3k bits/sLow cost TO-92 or 6-pin TSOC surface
mount package1-Wire communication operates over a widevoltage range of 2.8V to 6.0V from -40°C to
+85°CSupports Conditional Search with user-
programmable conditionVCC bondout for optional external supply toHidden Mode; the device will respond only
to a Match ROM command or a Conditional
Search when in this mode.
PIN ASSIGNMENT

To- 92
BOTTOM VIEW
See Mech. Drawings
Section
PIN DESCRIPTION
TO-92 TSOC

Pin 1 Ground GroundPin 2 Data Data
Pin 3 PIO-A PIO-A
Pin 4 –––– VCC
Pin 5 –––– NC
Pin 6 –––– PIO-B
DS2407
Dual Addressable Switch Plus
654
TOP VIEW
3.7 X 4.0 X 1.5 mm
SIDE VIEWSee Mech. Drawings
Section
DS2407
ORDERING INFORMATION

DS2407 TO-92 packageDS2407P 6-pin TSOC package
DS2407T Tape & Reel version of DS2407
DS2407V Tape & Reel version of DS2407P
DS2407X Chip Scale Pkg., Tape & Reel
ADDRESSABLE SWITCHTM DESCRIPTION

The DS2407 Dual Addressable Switch Plus 1-kbit Memory is a pair of open drain N-channel transistors
that can be turned on or off via the 1-Wire bus. Alternatively, either open drain output can serve as a logic
input that can be monitored via the same 1-Wire bus. In addition, the device has 1024 bits of EPROM tostore relevant information such as switch function, physical location, etc. The device is addressed by
matching its individual 64-bit factory-lasered registration number. The 64-bit number consists of an 8-bit
family code, a unique 48-bit serial number, and an 8-bit cyclic redundancy check. Communication with
the DS2407 follows the standard Dallas Semiconductor 1-Wire protocol and can be accomplished with a
single port pin of a microcontroller. Multiple DS2407 devices can reside on a common 1-Wire buscreating a MicroLAN. The network controller circuitry is embedded within the chip including a search
algorithm to determine the identity of each DS2407 on the network. The open drain outputs (PIO pins) for
each DS2407 on the MicroLAN can be independently switched on or off whether there is one or many
devices sharing the same 1-Wire bus. The logic level of the PIO pins for each device on the MicroLAN
can also be individually sensed and reported to the bus master. The device also supports a ConditionalSearch command to identify and access devices that qualify for certain user-specified conditions.
Qualification may be the status of a PIO-pin, the state of the output transistor or a latched activity flag.
OVERVIEW

The DS2407 Dual Addressable Switch Plus Memory provides a means for assigning an electronically
readable identification to a particular node or location with additional control capability provided by twoopen drain N-channel MOSFETs that can be remotely switched and sensed via communication over the
1-Wire bus (Figure 1). The DS2407 contains a factory-lasered registration number that includes a unique
48-bit serial number, an 8-bit CRC, and an 8-bit family code (12h). The 64-bit ROM portion of the
DS2407 not only creates an absolutely unique electronic identification for the device itself but also is a
means to locate and obtain or change the state of the switches that are associated with the 64-bit ROM.
The device derives its power entirely from the 1-Wire bus by storing energy on an internal capacitor
during periods of time when the signal line is high and continues to operate off of this “parasite” power
source during the low times of the 1-Wire line until it returns high to replenish the parasite (capacitor)
supply. For applications in feeder-networks where the low-times of the 1-Wire line may be very long, the
DS2407
The DS2407 uses the standard Dallas Semiconductor 1-Wire protocol for data transfers (Figure 2), with
all data being read and written least significant bit first. Communication to and from the DS2407 requires
a single bi-directional line that is typically a port pin of a microcontroller. The 1-Wire bus master
(microcontroller) must first issue one of five ROM function commands: 1) Read ROM, 2) Match ROM,3) Search ROM, 4) Skip ROM, or 5) Conditional Search ROM. These commands operate on the 64-bit
lasered ROM portion of each device and can singulate a specific device if many are present on the 1-Wire
line as well as indicate to the bus master how many and what type of each device is present. After a ROM
function command is successfully executed, the open drain outputs can be switched or sensed, or the
contents of the memory can be read or written via the 1-Wire bus. Writing the 1024 bits of data memoryor writing to the EPROM sections of the status memory requires a 12-volt programming pulse. When
programming the DS2407, only EPROM-based devices are allowed to be present on the 1-Wire line.
64-BIT LASERED ROM

Each DS2407 contains a unique ROM code that is 64 bits long. The first 8 bits are a 1-Wire family code.
The next 48 bits are a unique serial number. The last eight bits are a CRC of the first 56 bits. (See Figure
3.) The 1-Wire CRC of the lasered ROM is generated using the polynomial X8 + X5 + X4 + 1. Additionalinformation about the Dallas Semiconductor 1-Wire Cyclic Redundancy Check is available in the Book
of DS19xx iButton Standards. The 64-bit ROM and ROM Function Control section allow the DS2407 to
operate as a 1-Wire device and follow the 1-Wire protocol detailed in the section “1-Wire Bus System.”
The functions required to read and write the data and status memory of the DS2407 and to access the
switches are not accessible until the ROM function protocol has been satisfied. This protocol is describedin the ROM functions flow chart (Figure 12). The 1-Wire bus master must first provide one of the five
ROM function commands. After a ROM function sequence has been successfully executed, the bus
master may then provide any one of the memory function commands specific to the DS2407 (Figure 6).
MEMORY

The DS2407 contains two memory sections, Data Memory and Status Memory. The data memoryconsists of 1024 bits of one-time programmable EPROM organized as 4 pages of 32 bytes each. The size
of the device’s status memory is 8 bytes. The first seven bytes of status memory (addresses 0 to 6) are
also realized as EPROM. The eighth byte (address 7) consists of SRAM cells which shadow the contents
of address 6 each time the device powers up. The complete memory map is shown in Figure 4. The 8-bit
scratchpad is an additional register that acts as a buffer when writing the memory. Data is first written tothe scratchpad and then verified by reading a 16-bit CRC from the DS2407 that confirms proper receipt
of the data and address. If the buffer contents are correct, a programming pulse should be applied and the
byte of data will be written into the selected address in memory. This process insures data integrity when
programming the memory. The details for reading and programming the EPROM portions of the DS2407
are given in the Memory Function Commands section.
DS2407
DS2407 BLOCK DIAGRAM Figure 1
DS2407
HIERARCHICAL STRUCTURE FOR 1-WIRE PROTOCOL Figure 2
64-BIT LASERED ROM Figure 3

MSBLSB MSB LSB MSB LSB
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