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M41T315Y-65MQ6E Datasheet(PDF) 10 Page - STMicroelectronics |
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M41T315Y-65MQ6E Datasheet(HTML) 10 Page - STMicroelectronics |
10 / 30 page Operation M41T315Y, M41T315V, M41T315W 10/30 2 Operation Figure 6 on page 11 illustrates the main elements of the device. The following paragraphs describe the signals and functions. Communication with the clock is established by pattern recognition of a serial bit stream of 64 bits which must be matched by executing 64 consecutive WRITE cycles containing the proper data on data in (D). All accesses which occur prior to recognition of the 64-bit pattern are directed to memory via the chip enable output pin (CEO). After recognition is established, the next 64 READ or WRITE Cycles either extract or update data in the clock and CEO remains high during this time, disabling the connected memory (see Table 2 on page 11). Data transfer to and from the timekeeping function is accomplished with a serial bit stream under control of chip enable input (CEI), output enable (OE), and WRITE enable (WE). Initially, a READ cycle using the CEI and OE control of the clock starts the pattern recognition sequence by moving the pointer to the first bit of the 64-bit comparison register. Next, 64 consecutive WRITE cycles are executed using the CEI and WE control of the clock. These 64 WRITE cycles are used only to gain access to the clock. When the first WRITE cycle is executed, it is compared to the first bit of the 64-bit comparison register. If a match is found, the pointer increments to the next location of the comparison register and awaits the next WRITE cycle. If a match is not found, the pointer does not advance and all subsequent WRITE cycles are ignored. If a READ cycle occurs at any time during pattern recognition, the present sequence is aborted and the comparison register pointer is reset. Pattern recognition continues for a total of 64 WRITE cycles as described above until all the bits in the comparison register have been matched (see Figure 8 on page 14). With a correct match for 64 bits, access to the registers is enabled and data transfer to or from the timekeeping registers may proceed. The next 64 cycles will cause the device to either receive data on D, or transmit data on Q, depending on the level of OE pin or the WE pin. Cycles to other locations outside the memory block can be interleaved with CEI cycles without interrupting the pattern recognition sequence or data transfer sequence to the device. For a SO16 pin package, a standard 32.768 kHz quartz crystal can be directly connected to the M41T315Y/V/W via pins 1 and 2 (XI, XO). The crystal selected for use should have a specified load capacitance (CL) of 12.5 pF (see Table 10 on page 21). |
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