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Número de pieza | CY14V101QS | |
Descripción | 1-Mbit (128K x 8) Quad SPI nvSRAM | |
Fabricantes | Cypress Semiconductor | |
Logotipo | ||
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1-Mbit (128K × 8) Quad SPI nvSRAM
Features
■ Density
❐ 1-Mbit (128K × 8)
■ Bandwidth
❐ 108-MHz high-speed interface
❐ Read and write at 54 MBps
■ Serial Peripheral Interface
❐ Clock polarity and phase modes 0 and 3
❐ Multi I/O option – Single SPI (SPI), Dual SPI (DPI), and Quad
SPI (QPI)
■ High reliability
❐ Infinite read, write, and RECALL cycles
❐ One million STORE cycles to nonvolatile elements (SONOS
FLASH Quantum trap)
❐ Data retention: 20 years at 85 °C
■ Read
❐ Commands: Standard, Fast, Dual I/O, and Quad I/O
❐ Modes: Burst Wrap, Continuous (XIP)
■ Write
❐ Commands: Standard, Fast, Dual I/O, and Quad I/O
❐ Modes: Burst Wrap
■ Data protection
❐ Hardware: Through Write Protect Pin (WP)
❐ Software: Through Write Disable instruction
❐ Block Protection: Status Register bits to control protection
■ Special instructions
❐ STORE/RECALL: Access data between SRAM and
Quantum Trap
❐ Serial Number: 8-byte customer selectable (OTP)
❐ Identification Number: 4-byte Manufacturer ID and Product
ID
■ Store from SRAM to nonvolatile SONOS FLASH Quantum Trap
❐ AutoStore: Initiated automatically at power-down with a small
capacitor (VCAP)
❐ Software: Using SPI instruction (STORE)
❐ Hardware: HSB pin
■ Recall from nonvolatile SONOS FLASH Quantum Trap to
SRAM
❐ Auto RECALL: Initiated automatically at power-up
❐ Software: Using SPI instruction (RECALL)
■ Low-power modes
❐ Sleep: Average current = 280 µA at 85 °C
❐ Hibernate: Average current = 8 µA at 85 °C
■ Operating supply voltages
❐ Core VCC: 2.7 V to 3.6 V
❐ I/O VCCQ: 1.71 V to 2.0 V
■ Temperature range
❐ Extended Industrial: –40 °C to 105 °C
❐ Industrial: –40 °C to 85 °C
■ Packages
❐ 16-pin SOIC
❐ 24-ball FBGA
Functional Overview
The Cypress CY14V101QS combines a 1-Mbit nvSRAM with a
QPI interface. The QPI allows writing and reading the memory in
either a single (one I/O channel for one bit per clock cycle), dual
(two I/O channels for two bits per clock cycle), or quad (four I/O
channels for four bits per clock cycle) through the use of selected
opcodes.
The memory is organized as 128Kbytes each consisting of
SRAM and nonvolatile SONOS Quantum Trap cells. The SRAM
provides infinite read and write cycles, while the nonvolatile cells
provide highly reliable storage of data. Data transfers from
SRAM to the nonvolatile cells (STORE operation) take place
automatically at power-down. On power-up, data is restored to
the SRAM from the nonvolatile cells (RECALL operation). You
can also initiate the STORE and RECALL operations through
SPI instructions.
Cypress Semiconductor Corporation • 198 Champion Court
Document Number: 001-85257 Rev. *K
• San Jose, CA 95134-1709 • 408-943-2600
Revised April 6, 2016
1 page Pin Definitions
Pin Name
NC (I/O3)
VCCQ
VCC
CS
SO (I/O1)
WP (I/O2)
VSS
HSB
Input
I/O Type
Input/Output
Power Supply
Power Supply
Input
Output
Input/Output
Input
Input/Output
Ground
Input/Output
VCAP
SI (I/O0)
SCK
NC
RFU
Power Supply
Input
Input/Output
Input
–
–
CY14V101QS
Description
Not connected. In Single or Dual mode, this pin is not connected and left
floating. This mode does not support QSPI instructions.
I/O3: When the part is in Quad mode, the NC (I/O3) pin becomes I/O3 pin
and acts as input/output.
In Quad mode supporting SPI/DPI instructions, this pin needs to be tri-stated
while CS is enabled.
Power supply for the I/Os of the device.
Power supply to the core of the device.
Chip Select. Activates the device when pulled LOW. Driving this pin HIGH
puts the device in standby state.
Serial Output. Pin for output of data through SPI.
I/O1: When the part is in dual or quad mode, the SO (I/O1) pin becomes
I/O1 pin and acts as input/output.
Write Protect. Implements hardware write-protection in SPI/DPI modes.
I/O2: When the part is in quad mode, the WP (I/O2) pin becomes an I/O2
pin and acts as input/output.
Ground power supply to the core and I/Os of the device.
Hardware STORE Busy:
Output: Indicates the busy status of nvSRAM when LOW. After each
Hardware and Software STORE operation, HSB is driven HIGH for a short
time (tHHHD) with standard output HIGH current and then a weak internal
pull-up resistor keeps this pin HIGH (external pull-up resistor connection is
optional).
Input: Hardware STORE implemented by pulling this pin LOW externally.
AutoStore Capacitor. Supplies power to the nvSRAM during power loss to
STORE data from the SRAM to nonvolatile elements. If AutoStore is not
needed, this pin must be left as No Connect. It must never be connected to
ground.
Serial Input. Pin for input of all SPI instructions and data.
I/O0: When the part is in dual or quad mode, the SI (I/O0) pin becomes I/O0
pin and acts as input/output.
Serial Clock. Runs at speeds up to a maximum of fSCK. Serial input is latched
at the rising edge of this clock. Serial output is driven at the falling edge of
the clock.
Not connected.
Reserved for future use.
Document Number: 001-85257 Rev. *K
Page 5 of 55
5 Page CY14V101QS
SPI Operating Features
Power-Up
Power-up is defined as the condition when the power supply is
turned on and VCC crosses VSWITCH voltage.
As described earlier, at power-up nvSRAM performs a Power-Up
RECALL operation for tFA duration during which all memory
accesses are disabled. The HSB pin can be probed to check the
Ready/Busy status of nvSRAM after power-up.
The following is the device status after power-up:
■ SPI I/O Mode
■ Pull-ups activated for HSB
■ SO is tristated
■ Standby power mode if CS pin is high. Active power mode if
CS pin is LOW.
■ Status Register state:
❐ Write Enable bit is reset to ‘0’
❐ SRWD not changed from previous STORE operation
❐ SNL not changed from previous STORE operation
❐ Block Protection bits are not changed from previous STORE
operation
■ WP and NC (I/O3) functionality as defined by Quad Data Width
(QUAD) CR[1]. Pull-ups activated on WP and NC (I/O3) if Quad
Data width CR[1] is logic ‘0’.
Power-Down
At power-down (continuous decay of VCC), when VCC drops from
the normal operating voltage and below the VSWITCH threshold
voltage, the device stops responding to any instruction sent to it.
If a write cycle is in progress and the last data bit D0 has been
received when the power goes down, it is allowed tDELAY time to
complete the write. After this, all memory accesses are inhibited
and a AutoStore operation is performed (AutoStore is not
performed, if no write operations have been executed since the
last RECALL cycle). This feature prevents inadvertent writes to
nvSRAM from happening during power-down.
However, to completely avoid the possibility of inadvertent writes
during power-down, ensure that the device is deselected and is
in standby state, and the CS follows the voltage applied on VCC.
Active Power Mode and Standby State
When CS is LOW, the device is selected and is in the active
power mode. The device consumes ICC (ICC1 + ICCQ1) current,
as specified in on page 43. When CS is HIGH, the device is
deselected and the device goes into the standby state time, if a
STORE or RECALL cycle is not in progress. If a
STORE/RECALL cycle is in progress, the device goes into the
standby state after the STORE or RECALL cycle is completed.
Document Number: 001-85257 Rev. *K
Page 11 of 55
11 Page |
Páginas | Total 30 Páginas | |
PDF Descargar | [ Datasheet CY14V101QS.PDF ] |
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