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SDE2526 PDF даташит

Спецификация SDE2526 изготовлена ​​​​«Siemens Semiconductor Group» и имеет функцию, называемую «Nonvolatile Memory 2-Kbit E2PROM with I2C Bus Interface with Extended Temperature Range».

Детали детали

Номер произв SDE2526
Описание Nonvolatile Memory 2-Kbit E2PROM with I2C Bus Interface with Extended Temperature Range
Производители Siemens Semiconductor Group
логотип Siemens Semiconductor Group логотип 

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SDE2526 Даташит, Описание, Даташиты
Nonvolatile Memory
2-Kbit E2PROM with I2C Bus Interface
with Extended Temperature Range
Features
q Word-organized reprogrammable nonvolatile memory
in n-channel floating-gate technology (E2PROM)
q 256 × 8-bit organization
q + 5 V supply voltage
q Serial 2-line bus for data input and output (I2C Bus)
q Reprogramming mode, typ. 15 ms erase/write cycle
q Reprogramming by means of on-chip control
(without external control)
q Data retention longer than 10 years
q More than 105 reprogramming cycles per address
q Extended temperature range from – 40 to 110 °C
SDE 2526
MOS IC
P-DIP-8-4
P-DSO-8-1
Type
SDE 2526-5
SDE 2526-5 A2G
SDE 25X26 A2
SDE 25X26-5 A2G
Ordering Code
Q67100-H9020
Q67100-H9036
Q67100-H3261
Q67100-H3262
Package
P-DIP-8-4
P-DSO-8-1 (SMD)
P-DIP-8-4
P-DSO-8-1 (SMD)
Pin Configuration
SIEMENS
SIEMENS
STANDARD
STANDARD
Circuit Description
I2C Bus Interface
The I2C Bus is a bidirectional 2-line bus for the transfer of data between various integrated circuits.
It consists of a serial data line SDA and a serial clock line SCL. The data line requires an external
pull-up resistor to VCC (open drain output stage).
The possible operational states of the I2C Bus are shown in figure 1. In the quiescent state, both
lines SDA and SCL are high, i.e. the output stage of the data line is disabled. As long a SCL remains
"1", information changes on the data bus indicate the start or the end of data transfer between two
components.
Semiconductor Group
82
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SDE2526 Даташит, Описание, Даташиты
SDE 2526
The transition on SDA from "1" to "0" is a start condition, the transition from "0" to "1" is a stop
condition. During a data transfer the information on the data bus will only change while the clock line
SCL is "0". The information on SDA is valid as long as SCL is "1".
In conjunction with an I2C Bus system, the memory component can operate as a receiver and as a
transmitter (slave receiver or slave transmitter). Between a start and stop condition, information is
always transmitted in byte-organized form. Between the falling edge of the eighth clock pulse and
a ninth acknowledge clock pulse, the memory component sets the SDA-line to low as a confirmation
of reception, if the chip select conditions have been met. During the output of data, the data output
of the memory is high in impedance during the ninth clock pulse (acknowledge master).
The signal timing required for the operation of the I2C Bus is summarized in figure 2.
Control Functions of the I2C Bus
The memory component is controlled by the controller (master) via the I2C Bus in two operating
modes: read-out cycle, and reprogramming cycle, including erase and write to a memory address.
In both operating modes, the controller, as transmitter, has to provide 3 bytes and an additional
acknowledge clock pulse to the bus after the start condition. During a memory read, at least nine
additional clock pulses are required to accept the data from the memory and the acknowledge
master, before the stop condition may follow. In the case of programming, the active programming
process is only started by the stop condition after data input (see figure 3).
The chip select word contains the 3 chip select bits CS0, CS1 and CS2, thus allowing 8 memory
chips to be connected in parallel. Chip select is achieved when the three control bits logically
correspond to the selected conditions at the select inputs.
Check for End of Programming or Abortion of Programming Process
If the chip is addressed during active reprogramming by entering CS/E, the programming process
is terminated. If, however, it is addressed by entering CS/A, the entry will be ignored. Only after
programming has been terminated will the chip respond to CS/A. This allows the user to check
whether the end of the programming process has been reached (see figure 3).
Memory Read
After the input of the first two control words CS/E and WA, a resetting of the start condition and the
input of the third control word CS/A, the memory is set ready to read. During acknowledge clock
nine, the memory information is transferred in parallel mode to the shift register. Subsequent to the
falling edge of the acknowledge clock, the data output is low impedance and the first data bit can be
sampled (see figure 4).
With every shift clock, an additional bit reaches the output. After reading a byte, the internal address
counter is automatically incremented when the master receiver switches the data line to "low"
during the ninth clock (acknowledge master). Any number of memory locations can thus be read
one after the other. At address 256, an overflow to address 0 is initiated. With the stop condition, the
data output returns to high-impedance mode. The internal sequence control of the memory
component is reset from the read to the quiescent state with the stop condition.
Semiconductor Group
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SDE2526 Даташит, Описание, Даташиты
SDE 2526
Memory Reprogramming
The reprogramming cycle of a memory word comprises an erase and a subsequent write process.
During erase, all eight bits of the selected word are set into the "1" state. During write, "0" states are
generated according to the information in the internal data register, i.e. according to the third input
control word. After the 27th and last clock of the control word input, the active programming process
is started by the stop condition. The active reprogramming process is executed under on-chip
control.
The time required for reprogramming depends on component deviation and data patterns.
Therefore, with rated supply voltage, the erase/write process extends over max. 20 ms, or more
typically, 10 ms. In the case of data word input without write request (write request is defined as data
bit in data register set to "0"), the write process is suppressed and the programming time is
shortened. During a subsequent programming of an already erased memory address, the erase
process is suppressed again, so that the reprogramming time is also shortened.
Important: Switch-On Mode and Chip Reset
After the supply voltage VCC has been connected, the data output will be in high-impedance mode.
As a rule, the first operating mode to be entered, should be the read process of a word address.
As a result of the built-in "power-on reset" circuit, programming requests will not be accepted
immediately after the supply voltage has been switched on.
Total Erase
Enter the control word CS/E, load the address register with address 0 and the data register with FF
(hex) to erase the entire contents of the memory. Switch input CS2 to "open" immediately prior to
generating the stop condition. The subsequent stop condition triggers a total erase. Upon
termination of "total erase", CS2 must be reconnected to either 0 V or 4.5 V.
Semiconductor Group
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