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M58WR064FB70ZB6 Datasheet(PDF) 11 Page - STMicroelectronics |
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M58WR064FB70ZB6 Datasheet(HTML) 11 Page - STMicroelectronics |
11 / 87 page 11/87 M58WR064FT, M58WR064FB SIGNAL DESCRIPTIONS See Figure 2., Logic Diagram and Table 1., Signal Names, for a brief overview of the signals connect- ed to this device. Address Inputs (A0-A21). The Address Inputs select the cells in the memory array to access dur- ing Bus Read operations. During Bus Write opera- tions they control the commands sent to the Command Interface of the Program/Erase Con- troller. Data Input/Output (DQ0-DQ15). The Data I/O output the data stored at the selected address dur- ing a Bus Read operation or input a command or the data to be programmed during a Bus Write op- eration. Chip Enable (E). The Chip Enable input acti- vates the memory control logic, input buffers, de- coders and sense amplifiers. When Chip Enable is at VILand Reset is at VIH the device is in active mode. When Chip Enable is at VIH the memory is deselected, the outputs are high impedance and the power consumption is reduced to the standby level. Output Enable (G). The Output Enable input controls data outputs during the Bus Read opera- tion of the memory. Write Enable (W). The Write Enable input con- trols the Bus Write operation of the memory’s Command Interface. The data and address inputs are latched on the rising edge of Chip Enable or Write Enable whichever occurs first. Write Protect (WP). Write Protect is an input that gives an additional hardware protection for each block. When Write Protect is at VIL, the Lock- Down is enabled and the protection status of the Locked-Down blocks cannot be changed. When Write Protect is at VIH, the Lock-Down is disabled and the Locked-Down blocks can be locked or un- locked. (refer to Table 13., Lock Status). Reset (RP). The Reset input provides a hard- ware reset of the memory. When Reset is at VIL, the memory is in reset mode: the outputs are high impedance and the current consumption is re- duced to the Reset Supply Current IDD2. Refer to Table 18., DC Characteristics - Currents, for the value of IDD2. After Reset all blocks are in the Locked state and the Configuration Register is re- set. When Reset is at VIH, the device is in normal operation. Exiting reset mode the device enters asynchronous read mode, but a negative transi- tion of Chip Enable or Latch Enable is required to ensure valid data outputs. The Reset pin can be interfaced with 3V logic with- out any additional circuitry. It can be tied to VRPH (refer to Table 19., DC Characteristics - Voltages). Latch Enable (L). Latch Enable latches the ad- dress bits on its rising edge. The address latch is transparent when Latch Enable is at VIL and it is inhibited when Latch Enable is at VIH. Latch Enable can be kept Low (also at board level) when the Latch Enable function is not required or supported. Clock (K). The clock input synchronizes the memory to the microcontroller during synchronous read operations; the address is latched on a Clock edge (rising or falling, according to the configura- tion settings) when Latch Enable is at VIL. Clock is don't care during asynchronous read and in write operations. Wait (WAIT). Wait is an output signal used during synchronous read to indicate whether the data on the output bus are valid. This output is high imped- ance when Chip Enable is at VIH or Reset is at VIL. It can be configured to be active during the wait cy- cle or one clock cycle in advance. The WAIT signal is not gated by Output Enable. VDD Supply Voltage . VDD provides the power supply to the internal core of the memory device. It is the main power supply for all operations (Read, Program and Erase). VDDQ Supply Voltage. VDDQ provides the power supply to the I/O pins and enables all Outputs to be powered independently of VDD. VDDQ can be tied to VDD or can use a separate supply. VPP Program Supply Voltage. VPP is a power supply pin. The Supply Voltage VDD and the Pro- gram Supply Voltage VPP can be applied in any or- der. The pin can also be used as a control input. In the device the two functions are selected by the voltage range applied to the pin. If VPP is kept in a low voltage range (0V to VDDQ) VPP is seen as a control input. In this case a voltage lower than VP- PLK gives an absolute protection against program or erase, while VPP > VPP1 enables these func- tions (see Tables 18 and 19, DC Characteristics for the relevant values). VPP is only sampled at the beginning of a program or erase; a change in its value after the operation has started does not have any effect and program or erase operations continue. If VPP is in the range of VPPH it acts as a power supply pin. In this condition VPP must be stable un- til the Program/Erase algorithm is completed. VSS Ground. VSS ground is the reference for the core supply. It must be connected to the system ground. VSSQ Ground. VSSQ ground is the reference for the input/output circuitry driven by VDDQ. VSSQ must be connected to VSS |
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