|
TYP |
UNIT |
ten_dly |
PROJ_ON to 1.1V enable. This includes PROJ_ON
tglitch time. |
Rising edge of PROJ_ON to rising edge of 1.1V
enable |
11 |
ms |
tmon1(1)(2) |
Maximum time for 1.1V rail to reach voltage
threshold after enable has been asserted. This delay length will
occur even if 1.1V meets threshold earlier. |
Rising edge of ENB_1P1V to internal 1.1V monitor
test (3) |
10 |
ms |
tmon2(1)(2) |
Maximum time for 1.8V rail to reach voltage
threshold after enable has been asserted. This delay length will
occur even if 1.8V meets threshold earlier. |
Rising edge of ENB_1P8V to internal 1.8V monitor
test (3) |
10 |
ms |
tmon3(1)(2) |
Maximum time for 3.3V rail to reach voltage
threshold after enable has been asserted. This delay length will
occur even if 3.3V meets threshold earlier. |
Rising edge of ENB_3P3V to internal 3.3V monitor
test (3) |
10 |
ms |
tw1(4) |
RESETZ delay after voltage testing completion. |
Completion of 3.3V monitor test to RESETZ rising
edge |
10 |
ms |
(1) V1P1V, V1P8V, and V3P3V rails may be enabled prior to the TPS99001-Q1
assertion of their respective enable signal if required for system power design.
If necessary, ENB_1P1V may be connected to the 1.1V, 1.8V, and 3.3V external
supply enables.
(2) If any voltage threshold is not met within the specified time,
the TPS99001-Q1
will not deassert RESETZ. The power-up procedure must be fully restarted in this
situation.
(3) Each TPS monitor test is
performed approximately 10 ms from the voltage rail’s respective voltage enable.
The voltage rail may come to its threshold value any time before this. This
means there should be approximately 10 ms between each enable. The time for the
respective 1.1V, 1.8V, and 3.3V to come up will differ by design and parts
chosen, but they must all be valid before the monitor test.
(4) tw1 starts after the
3.3V rail passes its internal monitor tests (~10 ms). This time does not start
as soon as the 3.3V comes to its threshold value. This time starts after the
internal TPS monitor check for 3.3V passes. After the test passes, there will be
a 10 ms delay before RESETZ may be de-asserted. This means there will be
approximately 20 ms delay from the time the 3.3V enable is valid to the time
RESETZ is de-asserted.