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CY14B101P-SFXI Datasheet(PDF) 8 Page - Cypress Semiconductor |
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CY14B101P-SFXI Datasheet(HTML) 8 Page - Cypress Semiconductor |
8 / 36 page CY14B101P Document Number: 001-44109 Rev. *N Page 8 of 36 SPI Operating Features Power-Up Power-up is defined as the condition when the power supply is turned on and VCC crosses VSWITCH voltage. During this time, the CS must be enabled to follow the VCC voltage. Therefore, CS must be connected to VCC through a suitable pull-up resistor. As a built in safety feature, CS is both edge sensitive and level sensitive. After power-up, the device is not selected until a falling edge is detected on CS. This ensures that CS is HIGH, before going LOW to start the first operation. As described earlier, nvSRAM performs a Power-Up RECALL operation after power-up and therefore, all memory accesses are disabled for tFA duration after power-up. The HSB pin can be probed to check the ready/busy status of nvSRAM after power-up. Power-On Reset A power-on reset (POR) circuit is included to prevent inadvertent writes. At power-up, the device does not respond to any instruction until the VCC reaches the POR threshold voltage (VSWITCH). After VCC transitions the POR threshold, the device is internally reset and performs an Power-Up RECALL operation. During Power-Up RECALL all device accesses are inhibited. The device is in the following state after POR: ■ Deselected (after power-up, a falling edge is required on CS before any instructions are started). ■ Standby power mode ■ Not in the HOLD Condition ■ Status Register state: ❐ Write Enable (WEN) bit is reset to 0. ❐ WPEN, BP1, BP0 unchanged from previous STORE operation ❐ Don’t care bits 4-6 are reset to 0. The WPEN, BP1, and BP0 bits of the Status Register are nonvolatile bits and remain unchanged from the previous STORE operation. Before selecting and issuing instructions to the memory, a valid and stable VCC voltage must be applied. This voltage must remain valid until the end of the instruction transmission. 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 conditional AutoStore operation is performed (AutoStore is not performed if no writes have happened since last RECALL cycle). This feature prevents inadvertent writes to nvSRAM from happening during power-down. However, to avoid the possibility of inadvertent writes during power-down, ensure that the device is deselected and is in standby power mode, and the CS follows the voltage applied on VCC. Active Power and Standby Power Modes When CS is LOW, the device is selected and is in the active power mode. The device consumes ICC current, as specified in DC Electrical Characteristics on page 24. When CS is HIGH, the device is deselected and the device goes into the standby power mode if a STORE or RECALL cycle is not in progress. If a STORE/RECALL cycle is in progress, the device goes into the standby power mode after the STORE/RECALL cycle is completed. In the standby power mode the current drawn by the device drops to ISB. SPI Functional Description The CY14B101P uses an 8-bit instruction register. Instructions and their operation codes are listed in Table 1. All instructions, addresses, and data are transferred with the MSB first and start with a HIGH to LOW CS transition. There are, in all, 12 SPI instructions that provide access to most of the functions in nvSRAM. Further, the WP, HOLD and HSB pins provide additional functionality driven through hardware. The SPI instructions in CY14B101P are divided based on their functionality in the following types: ❐ Status Register Access: RDSR and WRSR instructions ❐ Write protection functions: WREN and WRDI instructions along with WP pin and WEN, BP0 and BP1 bits ❐ SRAM memory access: READ and WRITE instructions ❐ RTC access: RDRTC and WRTC instructions ❐ nvSRAM special instructions: STORE, RECALL, ASENB, and ASDISB Table 1. Instruction Set Instruction Category Instruction Name Opcode Operation Status Register Instructions WREN 0000 0110 Set Write Enable latch WRDI 0000 0100 Reset Write Enable latch RDSR 0000 0101 Read Status Register WRSR 0000 0001 Write Status Register SRAM Read/Write Instructions READ 0000 0011 Read data from memory array WRITE 0000 0010 Write data to memory array RTC Read/Write Instructions WRTC 0001 0010 Write RTC registers RDRTC 0001 0011 Read RTC Registers Special NV Instructions STORE 0011 1100 Software STORE RECALL 0110 0000 Software RECALL ASENB 0101 1001 AutoStore Enable ASDISB 0001 1001 AutoStore Disable Reserved - Reserved - 0001 1110 |
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