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GS8342DT10BD-450 Datasheet(PDF) 8 Page - GSI Technology |
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GS8342DT10BD-450 Datasheet(HTML) 8 Page - GSI Technology |
8 / 29 page Example x18 RAM Write Sequence using Byte Write Enables Data In Sample Time BW0 BW1 D0–D8 D9–D17 Beat 1 0 1 Data In Don’t Care Beat 2 1 0 Don’t Care Data In Beat 3 0 0 Data In Data In Beat 4 1 0 Don’t Care Data In Resulting Write Operation Byte 1 D0–D8 Byte 2 D9–D17 Byte 1 D0–D8 Byte 2 D9–D17 Byte 1 D0–D8 Byte 2 D9–D17 Byte 1 D0–D8 Byte 2 D9–D17 Written Unchanged Unchanged Written Written Written Unchanged Written Beat 1 Beat 2 Beat 3 Beat 4 GS8342DT07/10/19/37BD-450/400/350/333/300 Specifications cited are subject to change without notice. For latest documentation see http://www.gsitechnology.com. Rev: 1.01a 8/2017 8/29 © 2011, GSI Technology FLXDrive-II Output Driver Impedance Control HSTL I/O SigmaQuad-II+ SRAMs are supplied with programmable impedance output drivers. The ZQ pin must be connected to VSS via an external resistor, RQ, to allow the SRAM to monitor and adjust its output driver impedance. The value of RQ must be 5X the value of the desired RAM output impedance. The allowable range of RQ to guarantee impedance matching continuously is between 175 and 350. Periodic readjustment of the output driver impedance is necessary as the impedance is affected by drifts in supply voltage and temperature. The SRAM’s output impedance circuitry compensates for drifts in supply voltage and temperature. A clock cycle counter periodically triggers an impedance evaluation, resets and counts again. Each impedance evaluation may move the output driver impedance level one step at a time towards the optimum level. The output driver is implemented with discrete binary weighted impedance steps. Input Termination Impedance Control These SigmaQuad-II+ SRAMs are supplied with programmable input termination on Data (D), Byte Write (BW), and Clock (K,K) input receivers. The input termination is always enabled, and the impedance is programmed via the same RQ resistor (connected between the ZQ pin and VSS) used to program output driver impedance, in conjuction with the ODT pin (6R). When the ODT pin is tied Low, input termination is "strong" (i.e., low impedance), and is nominally equal to RQ*0.3 Thevenin-equivalent when RQ is between 175Ω and 350Ω. When the ODT pin is tied High (or left floating—the pin has a small pull-up resistor), input termination is "weak" (i.e., high impedance), and is nominally equal to RQ*0.6 Thevenin-equivalent when RQ is between 175Ω and 250Ω. Periodic readjustment of the termination impedance occurs to compensate for drifts in supply voltage and temperature, in the same manner as for driver impedance (see above). Note: D, BW, K, K inputs should always be driven High or Low; they should never be tri-stated (i.e., in a High-Z state). If the inputs are tri-stated, the input termination will pull the signal to VDDQ/2 (i.e., to the switch point of the diff-amp receiver), which could cause the receiver to enter a meta-stable state, resulting in the receiver consuming more power than it normally would. This could result in the device’s operating currents being higher. |
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