參數(shù)資料
型號: FM25C160
廠商: Fairchild Semiconductor Corporation
英文描述: 16K-Bit SPI⑩ Interface Serial CMOS EEPROM
中文描述: 16K的位SPI⑩的CMOS EEPROM的串行接口
文件頁數(shù): 7/11頁
文件大?。?/td> 102K
代理商: FM25C160
7
www.fairchildsemi.com
FM25C160U Rev. B
F
Functional Description
(Continued)
SPI communication
As mentioned before, serial communication with the EEPROM is
enabled when the /CS pin is held low and the /HOLD pin is held
high. Input data (Instruction Opcodes, Array addresses and Data)
on the SI pin is latched in on the rising edges of SCK clock signal,
starting from the first rising edge after the /CS pin goes low. During
the time the SI data is input into the EEPROM, the SO pin remains
in high impedance state. If the intended instruction is of read
nature (Array read and Status register read), then data from the
EEPROM is driven out actively on the SO pin from every falling
edge of the SCK after the last input data (SI) is latched in. During
the time the SO data is output from the EEPROM, the data on the
SI pin is ignored. Figure 2illustrates the above. Refer Figure 1 or
timing information.
HOLD function
An active communication with the EEPROM can be temporarily
suspended by bringing the /HOLD pin low when a EEPROM is
selected (/CS pin should be low) and a serial sequence with the
EEPROM is currently underway. To suspend the communication,
/HOLD pin must be driven low while SCK is low, otherwise the Hold
function will not be invoked until the next SCK high to low
transition. The EEPROM must remain selected during this se-
quence. Transitions on the SCK and SI pins are ignored during the
time the part is suspended and the SO pin will be in high
impedance state. Releasing the /HOLD pin back to high state will
allow the operation to resume from the point it was suspended.
/HOLD pin must be driven high while the SCK pin is low, otherwise
serial communication will not resume until the next SCK high to
low transition. Asserting a low on the /HOLD pin at any time will tri-
state the SO pin. Figure 3 illustrates Hold timing.
System Configuration
When multiple SPI peripherals (for e.g. EEPROMs) are present on
the bus, the SI, SO and the SCK signals can be tied together.
Figure4 illustrates a typical system configuration with respect to
/CS, SCK, SI and SO pins.
FIGURE 4. System Configuration
SI
SO
SCK
/CS
DATA OUT (MOSI)
DATA IN (MISO)
SERIAL CLOCK (SPICK)
SS0
SS1
SS2
SS3
SI
SO
SCK
/CS
SI
SO
SCK
/CS
SI
SO
SCK
/CS
SELECTION
CHIP
SPI
MASTER MCU
FM25Cxxx
SPI Modes 0 and 3 (00 and 11)
FM25C160U supports both Mode 0 and Mode 3 of operations.
The difference between Mode 0 and Mode 3 is determined by the
state of the SCK clock signal when a SPI cycle starts (when /CS
is driven low) as well as when the SPI cycle ends (when /CS is
driven high). Under Mode 0 of operation, the SCK signal is held low
both at the start and at the end of a SPI cycle. Under Mode 1 of
operation, the SCK signal is held high both at the start and at the
end of a SPI cycle. However in both of these two modes, the input
data (SI) is sampled (latched in) at the rising edge of the SCK clock
signal and the output data (SO) is driven after the falling edge of
the SCK clock signal. See Figure1 and Figure2.
READ SEQUENCE (READ)
Reading the memory via the serial SPI link requires the following
sequence. The/CS pin is pulled low to select the EEPROM. The
READ opcode is transmitted on the SI pin followed by two bytes of
address, "High byte addr" (A15-A8) and "Low byte addr" (A7-A0).
After this is done, data on the SI pin becomes don't care. The data
(D7-D0) form the address specified is then shifted out on the SO pin.
If only one byte is to be read, the /CS pin can be pulled back to the
high level. It is possible to continue the READ sequence as the byte
address is automatically incremented and data will continue to be
shifted out as clock pulses are continuously applied. When the end
of memory array is reached (last byte location), the address counter
rolls over to the start of memory array (first byte location) allowing
the entire memory to be read in one continuous READ cycle. See
Figure 5. Note that only A10-A0 address bits are treated valid by
FM25C160U while bits A15-A11 are ignored.
FIGURE 5. Read Sequence
CS
SI
SO
Read
Opcode
High Byte
Addr
Low Byte
Addr
Data
(1)
Data
(2)
Data
(n)
READ STATUS REGISTER (RDSR):
The Read Status Register (RDSR) instruction provides read
access to the status register. As mentioned before, of the 8bits of
data, only the LSB 4bits are valid and they indicate Block Protec-
tion information (BP1 and BP0), Write Enable status (WEN) and
Busy/Ready status (/RDY) of the EEPROM. MSB 4bits of are
invalid (Don
t cares) Following is the format of RDSR data:
TABLE 3. Status Register Format
Bit
7
X
Bit
6
X
Bit
5
X
Bit
4
X
Bit
3
BP1
Bit
2
BP0
Bit
1
WEN
Bit
0
RDY
Bit3 (BP1) and Bit2 (BP0) together indicate Block write protection
previously set on the EEPROM. Refer Table 2.
Bit1 (WEN) indicates the Write enable status of the EEPROM.
This bit is a read-only bit and is read by executing RDSR
instruction. If this bit is
1
then the EEPROM is write enabled. If
this bit is
0
then the EEPROM is write disabled.
相關PDF資料
PDF描述
FM25C160U 16K-Bit SPI⑩ Interface Serial CMOS EEPROM
FM25C160UEN SERIAL EEPROM|2KX8|CMOS|DIP|8PIN|PLASTIC
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FM25C160ULN SERIAL EEPROM|2KX8|CMOS|DIP|8PIN|PLASTIC
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