Cypress STK14C88-5 User Manual
STK14C88-5
Document Number: 001-51038 Rev. **
Page 2 of 17
Pin Configurations
Pin Definitions
Pin Name
Alt
IO Type
Description
A
0
–A
14
Input
Address Inputs. Used to select one of the 32,768 bytes of the nvSRAM.
DQ
0
-DQ
7
Input or Output Bidirectional Data IO Lines. Used as input or output lines depending on operation.
WE
W
Input
Write Enable Input, Active LOW. When the chip is enabled and WE is LOW, data on the IO
pins is written to the specific address location.
pins is written to the specific address location.
CE
E
Input
Chip Enable Input, Active LOW. When LOW, selects the chip. When HIGH, deselects the chip.
OE
G
Input
Output Enable, Active LOW. The active LOW OE input enables the data output buffers during
read cycles. Deasserting OE HIGH causes the IO pins to tri-state.
read cycles. Deasserting OE HIGH causes the IO pins to tri-state.
V
SS
Ground
Ground for the Device. The device is connected to ground of the system.
V
CC
Power Supply Power Supply Inputs to the Device.
HSB
Input or Output Hardware Store Busy (HSB). When LOW, this output indicates a Hardware Store is in progress.
When pulled low external to the chip, it initiates a nonvolatile STORE operation. A weak internal
pull up resistor keeps this pin high if not connected (connection optional).
pull up resistor keeps this pin high if not connected (connection optional).
V
CAP
Power Supply AutoStore
Capacitor. Supplies power to nvSRAM during power loss to store data from SRAM
to nonvolatile elements.
Figure 1. Pin Diagram: 32-Pin DIP
Figure 2. Pin Diagram: 32-Pin LCC