Compaq EV67, 21264 specifications AC Characteristics, AC Test Conditions

AC Characteristics

the tester environment and does not need to be disabled. EV6Clk_L and EV6Clk_H are outputs that are both generated and consumed by the 21264/EV67; thus, VDD tracks for both the producer and consumer.

On the push-pull interfaces:

•Disabling all output drivers leaves the output signal at the DC bias point of the ter- mination network.

•Disabling the bidirectional drivers leaves the other consumers of the bus as the bus master.

On the open-drain interfaces:

•Disabling all output drivers leaves the output signal at the voltage of the open-drain pull-up.

•Disabling all bidirectional drivers leaves the other consumers of the bus as the bus master.

To avoid failure mechanism number two, systems must sequence and control external signal flow in such a way as to avoid zero differential into the 21264/EV67 input receivers (I_DA, I_DA_CLK, B_DA_OD, B_DA_PP, and B_DA_PP). Finally, to avoid failure mechanism number three, systems must sequence input and bidirectional pins (I_DA, I_DA_CLK, B_DA_OD, B_DA_PP, and I_DC_REF) such that the 21264/ EV67 does not see a voltage above its VDD.

In addition, as power is being ramped, Reset_L must be asserted — this allows the 21264/EV67 to reset internal state. Once the target voltage levels are attained, systems should assert DCOK_H. This indicates to the 21264/EV67 that internal logic functions can be evaluated correctly and that the power-up sequence should be continued. Prior to DCOK_H being asserted, the logic internal to the 21264/EV67 is being reset and the internal clock network is running (either clocked by the VCO, which is at a nominal speed, or by ClkIn_H, if the PLL is bypassed).

The reset state machine is in state WAIT_SETTLE.

9.4 AC Characteristics

Abbreviations:

The following abbreviations apply to Table 9–13:

•TSU = Setup time

•Duty cycle = Minimum clock duty cycle

•TDH = Hold time

•Slew rate = referenced to signal edge

AC Test Conditions:

The following conditions apply to the measurements that are listed in Table 9–13:

•VDD is in the range between 1.9 V and 2.15 V.

•SysVref is VDD/2 Volts.

•BcVref is 0.75 Volts.