S25FL127SABMFI003 View Datasheet(PDF) - Cypress Semiconductor

Part Name

Description

Manufacturer

S25FL127SABMFI003

128-Mbit (16 Mbyte) 3.0 V SPI Flash Memory

Cypress Semiconductor 

S25FL127S

3.3.9

Single Latency (Dummy) Cycle

Read commands may have zero to several latency cycles during which read data is read from the main flash memory array before

transfer to the host. The number of latency cycles are determined by the Latency Code in the configuration register (CR[7:6]). During

the latency cycles, the host keeps RESET# high, CS# low, and HOLD# high. The Write Protect (WP#) signal is ignored. The host

may drive the SI signal during these cycles or the host may leave SI floating. The memory does not use any data driven on SI / I/O0

or other I/O signals during the latency cycles. In dual or quad read commands, the host must stop driving the I/O signals on the

falling edge at the end of the last latency cycle. It is recommended that the host stop driving I/O signals during latency cycles so that

there is sufficient time for the host drivers to turn off before the memory begins to drive at the end of the latency cycles. This prevents

driver conflict between host and memory when the signal direction changes. The memory does not drive the Serial Output (SO) or

I/O signals during the latency cycles.

The next interface state depends on the command structure i.e. the number of latency cycles, and whether the read is single, dual,

or quad width.

3.3.10

Single Output Cycle - Memory to Host Transfer

Several commands transfer information back to the host on the single Serial Output (SO) signal. The host keeps RESET# high, CS#

low, and HOLD# high. The Write Protect (WP#) signal is ignored. The memory ignores the Serial Input (SI) signal. The memory

drives SO with data.

The next interface state continues to be Single Output Cycle until the host returns CS# to high ending the command.

3.3.11

Dual Input Cycle - Host to Memory Transfer

The Read Dual I/O command transfers two address or mode bits to the memory in each cycle. The host keeps RESET# high, CS#

low, HOLD# high. The Write Protect (WP#) signal is ignored. The host drives address on SI / IO0 and SO / IO1.

The next interface state following the delivery of address and mode bits is a Dual Latency Cycle if there are latency cycles needed or

Dual Output Cycle if no latency is required.

3.3.12

Dual Latency (Dummy) Cycle

Read commands may have zero to several latency cycles during which read data is read from the main flash memory array before

transfer to the host. The number of latency cycles are determined by the Latency Code in the configuration register (CR[7:6]). During

the latency cycles, the host keeps RESET# high, CS# low, and HOLD# high. The Write Protect (WP#) signal is ignored. The host

may drive the SI / IO0 and SO / IO1 signals during these cycles or the host may leave SI / IO0 and SO / IO1 floating. The memory

does not use any data driven on SI / IO0 and SO / IO1 during the latency cycles. The host must stop driving SI / IO0 and SO / IO1

on the falling edge at the end of the last latency cycle. It is recommended that the host stop driving them during all latency cycles so

that there is sufficient time for the host drivers to turn off before the memory begins to drive at the end of the latency cycles. This

prevents driver conflict between host and memory when the signal direction changes. The memory does not drive the SI / IO0 and

SO / IO1 signals during the latency cycles.

The next interface state following the last latency cycle is a Dual Output Cycle.

3.3.13

Dual Output Cycle - Memory to Host Transfer

The Read Dual Output and Read Dual I/O return data to the host two bits in each cycle. The host keeps RESET# high, CS# low, and

HOLD# high. The Write Protect (WP#) signal is ignored. The memory drives data on the SI / IO0 and SO / IO1 signals during the

dual output cycles.

The next interface state continues to be Dual Output Cycle until the host returns CS# to high ending the command.

3.3.14

QPP or QOR Address Input Cycle

The Quad Page Program and Quad Output Read commands send address to the memory only on IO0. The other IO signals are

ignored because the device must be in Quad mode for these commands thus the Hold and Write Protect features are not active. The

host keeps RESET# high, CS# low, and drives IO0.

For QPP the next interface state following the delivery of address is the Quad Input Cycle.

For QOR the next interface state following address is a Quad Latency Cycle if there are latency cycles needed or Quad Output

Cycle if no latency is required.

Document Number: 001-98282 Rev. *I

Page 23 of 142

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