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WEDPN16M72V-125B2C Datasheet(PDF) 6 Page - White Electronic Designs Corporation |
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WEDPN16M72V-125B2C Datasheet(HTML) 6 Page - White Electronic Designs Corporation |
6 / 14 page White Electronic Designs February 2005 Rev. 3 WEDPN16M72V-XB2X 6 White Electronic Designs Corporation • (602) 437-1520 • www.wedc.com White Electronic Designs Corp. reserves the right to change products or specifications without notice. FIGURE 4 – CAS LATENCY or incompatibility with future versions may result. OPERATING MODE The normal operating mode is selected by setting M7and M8 to zero; the other combinations of values for M7 and M8 are reserved for future use and/or test modes. The programmed burst length applies to both READ and WRITE bursts. Test modes and reserved states should not be used because unknown operation or incompatibility with future versions may result. TABLE 2 - CAS LATENCY SPEED ALLOWABLE OPERATING FREQUENCY (MHz) CAS LATENCY = 2 CAS LATENCY = 3 -100 ≤75 ≤100 -125 ≤100 ≤125 -133 ≤100 ≤133 WRITE BURST MODE When M9 = 0, the burst length programmed via M0-M2 applies to both READ and WRITE bursts; when M9 = 1, the programmed burst length applies to READ bursts, but write accesses are single-location (nonburst) accesses. CLK I/O T2 T1 T3 T0 CAS Latency = 3 LZ DOUT tOH t COMMAND NOP READ tAC NOP T4 NOP DON’T CARE UNDEFINED CLK I/O T2 T1 T3 T0 CAS Latency = 2 LZ DOUT tOH t COMMAND NOP READ tAC NOP BURST TYPE Accesses within a given burst may be programmed to be either sequential or interleaved; this is referred to as the burst type and is selected via bit M3. The ordering of accesses within a burst is determined by the burst length, the burst type and the starting column address, as shown in Table 1. CAS LATENCY The CAS latency is the delay, in clock cycles, between the registration of a READ command and the availability of the first piece of output data. The latency can be set to two or three clocks. If a READ command is registered at clock edge n, and the latency is m clocks, the data will be available by clock edge n+m. The I/Os will start driving as a result of the clock edge one cycle earlier (n + m - 1), and provided that the relevant access times are met, the data will be valid by clock edge n + m. For example, assuming that the clock cycle time is such that all relevant access times are met, if a READ command is registered at T0 and the latency is programmed to two clocks, the I/Os will start driving after T1 and the data will be valid by T2. Table 2 below indicates the operating frequencies at which each CAS latency setting can be used. Reserved states should not be used as unknown operation |
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