OCPRF100 MP Server System Technical Product Specification

Revision 1.0

10.2.5Front Panel LCD

The front panel LCD is a Stanley GMD1620A*. The LCD and the LCD’s LED backlighting unit are powered off of the main +5 V. Therefore, this capability is only available when the +5 V power is available.

In order to avoid loss of 5 V standby power and LCD latch-up, the firmware must comply with the following. When main power is OFF, all signals driving the LCD should be disabled or driven low. These include the D0 through D3, RW, EN, and RS signals. Also, when main power is removed the LCD signals should be brought to this safe state within 200 s.

10.2.6System Power

10.2.6.1Power Supply Monitoring

Each of the three supplies has three signals that can be monitored. These are the PS_PRES, PS_FAULT and the PRED_FAIL signals. These are available via the private I2C bus.

10.2.6.2Power Interrupt Routing

There are three hardware signals that can initiate power cycling. They are the real time clock

(RTC) (PWR_CNTRL_RTC_L), the Intel® SMM card (PWR_CNTRL_SFC_L), and main power going out (PWR_GOOD). These are accessed via the PWR_RTC_TRANS_LATCH, the PWR_SFC_LATCH, and the PWR_GOOD_LATCH signals per the memory map. Upon asser- tion, each of these signals is individually latched in the programmable logic device (PLD). The asserted state remains latched even if the signal becomes deasserted. The asserted state remains latched until the latch is read by the microcontroller. When read by the microcontroller, the latch becomes cleared.

The PWR_CNTRL_RTC_L transition latch (PWR_RTC_TRANS_LATCH) becomes set (asserted) on either transition of the PWR_CNTRL_RTC_L signal. When set, the latch remains set until read by the FPC. Note that by reading the PWR_RTC_TRANS_LATCH latch, it is not possible to obtain the absolute state of the PWR_CNTRL_RTC_L signal. Therefore, the PWR_CNTRL_RTC_L signal can also be read by the FPC.

The PWR_CNTRL_SFC_L latch (PWR_SFC_LATCH) becomes set (asserted) on a high to low transition of the PWR_CNTRL_SFC_L signal. When set, the latch remains set until read by the FPC. When the latch is read, it becomes cleared and remains cleared until the next high to low transition of the PWR_CNTRL_SFC_L signal. The state of the PWR_CNTRL_SFC_L signal can also be read directly.

The PWR_GOOD_LATCH becomes set (asserted) when the PWR_GOOD signal has a high to low transition. This occurs when main power goes bad. Once read, the latch is cleared and will not be set until the next high to low transition. The state of the POWER_GOOD signal can also be read directly. Each of these three latches is fed into a fourth latch (PWR_INTR_LATCH_L), which drives the PWR_INTR_L signal. The PWR_INTR_L signal drives the FPC’s INT0 input. This latch is asserted (low) if any of the power cycle signals become asserted (high). This latch signal is deasserted (high) whenever it is read, as long as all three inputs are also deasserted.

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