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Freescale Semiconductor MPC8313E PowerQUICC II Pro Family Reference Manual page 279

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Offset 0x00B0C
0
1
R
USE_
STATE
W
Reset
16
R
W
Reset
Figure 5-54. Power Management Controller Configuration Register 1
Table 5-70
defines the bit fields of PMCCR1.
Bits
Name
0
USE_STATE
1–22
23
LLPEN
24
PME_EN
25
ASSERT_PME Normally PCI_PME output is asserted automatically by PMC when a defined wake-up event occurs
26
POWER_OFF
27
MPC8313E PowerQUICC™ II Pro Integrated Processor Family Reference Manual, Rev. 2
Freescale Semiconductor
22
23
24
LLPEN PME_EN ASSERT_PME POWER_OFF
Table 5-70. PMCCR1 Bit Settings
Controls whether the next and current state values should be used. This typically depends on the
device operating mode (PCI host or agent).
0 Ignore the next and current state values (host mode).
1 Use the next and current state values (agent mode). When next state does not equal current
state, an interrupt will be sent to the e300 CPU.
Reserved, must be cleared.
SerDes low power enable bit. This bit dictates whether the SerDes is intended to be switched off or
not when the chip goes into low power mode.
0 SerDes will be switched off when the chip goes into low power mode.
1 SerDes will not be switched off when the chip goes into low power mode. (This would be needed
when wake-up through SGMII is intended.)
PME (power management event) signaling enable. Clearing this bit typically indicates the device is
acting as PCI host, meaning that PCI_PME is a wake-up input to device. Setting this bit typically
indicates that the device is a PCI agent and will assert PCI_PME on wake-up. PME_EN does not
qualify the assertion of PCI_PME when setting the PMCCR1[ASSERT_PME] bit to 1.
0 Mask PME signaling when wake-up events occur.
1 Allow PME signaling when wake-up events occur.
assuming PMCCR1[PME_EN] = 1 and PCIPMCR1[PME_EN] = 1. A defined wake-up event refers
to those events that are registered in bits 23–30 of PMCER. ASSERT_PME allows PCI_PME to be
asserted manually, by the e300. This would be done to inform the host of a power state change when
PMC does not generate PCI_PME automatically, for example waking from D1 due to CSB bus
activity. ASSERT_PME is not qualified by PMCCR1[PME_EN]. ASSERT_PME is cleared when the
PCI_PME signal is asserted.
0 PCI_PME will only be asserted automatically when a defined wake-up event occurs.
1 Assert the PCI_PME signal under software control (manually).
Distinguishes between D3Hot and D3Warm. If this bit is set, EXT_PWR_CTRL will be toggled in D3
causing VDD to be switched off (if implemented externally).
0 Do not use D3warm state. Always assert the EXT_PWR_CTRL output.
1 On transitions to D3 state, negate the EXT_PWR_CTRL signal to switch external power low
(VDD = 0). On wake-up assert EXT_PWR_CTRL to switch VDD power on.
Reserved
All zeros
25
26
All zeros
Description
System Configuration
Access: Read/Write
27
28
29
30
NEXT_STATE
CURR_STATE
15
31
5-71

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