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M40Z300WMQ6TR Datenblatt(PDF) 7 Page - STMicroelectronics |
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M40Z300WMQ6TR Datenblatt(HTML) 7 Page - STMicroelectronics |
7 / 21 page 7/21 M40Z300, M40Z300W OPERATION The M40Z300/W, as shown in Figure 7., page 6, can control up to four (eight, if placed in parallel) standard low-power SRAMs. These SRAMs must be configured to have the chip enable input dis- able all other input signals. Most slow, low-power SRAMs are configured like this, however many fast SRAMs are not. During normal operating con- ditions, the conditioned chip enable (E1CON to E4CON) output pins follow the chip enable (E) input pin with timing shown in Figure 8., page 8 and Ta- ble 7., page 14. An internal switch connects VCC to VOUT. This switch has a voltage drop of less than 0.3V (IOUT1). When VCC degrades during a power failure, E1CON to E4CON are forced inactive independent of E. In this situation, the SRAM is unconditionally write protected as VCC falls below an out-of-toler- ance threshold (VPFD). For the M40Z300 the pow- er fail detection value associated with VPFD is selected by the Threshold Select (THS) pin and is shown in Table 6., page 12. For the M40Z300W, the THS pin selects both the supply voltage and VPFD (also shown in Table 6., page 12). Note: In either case, THS pin must be connected to either VSS or VOUT. If chip enable access is in progress during a power fail detection, that memory cycle continues to com- pletion before the memory is write protected. If the memory cycle is not terminated within time tWPT, E1CON to E4CON are unconditionally driven high, write protecting the SRAM. A power failure during a WRITE cycle may corrupt data at the currently addressed location, but does not jeopardize the rest of the SRAM's contents. At voltages below VPFD (min), the user can be assured the memory will be write protected within the Write Protect Time (tWPT) provided the VCC fall time exceeds tF (see Figure 8., page 8). As VCC continues to degrade, the internal switch disconnects VCC and connects the internal battery to VOUT. This occurs at the switchover voltage (VSO). Below the VSO, the battery provides a volt- age VOHB to the SRAM and can supply current IOUT2 (see Table 6., page 12). When VCC rises above VSO, VOUT is switched back to the supply voltage. Outputs E1CON to E4CON are held inactive for tCER (120ms maxi- mum) after the power supply has reached VPFD, independent of the E input, to allow for processor stabilization (see Figure 12., page 13). Two to Four Decode The M40Z300/W includes a 2 input (A, B) decoder which allows the control of up to 4 independent SRAMs. The Truth Table for these inputs is shown in Table 2. Table 2. Truth Table Inputs Outputs E BA E1CON E2CON E3CON E4CON H X X H HHH LLLL H H H LL H H L H H LHLH HLH L HHH HH L |
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