Intel PXA27X manual Intel PXA27x Processor Voltage Domains Sheet 1, Voltage Description

Voltage

Description

VCC_BATT

BATTERY VOLTAGE:

Voltage-limited power from the main battery, or directly from a backup battery, at

nominal 3.0 V (±25%). VCC_BATT must be supplied to start the power manager. When

the main battery is installed, VCC_BATT powers the real-time clock and power

management circuitry during initial power-on, sleep, deep sleep and sleep wake-up, so

it remains powered from the backup battery when the main power source has been

discharged or removed. See Section 2.2, “Batteries” on page 14 for information about

directly connecting VCC_BATT to the backup battery or main battery.

NOTE: The power management integrated circuit (PMIC) output drivers for logic

signals nRESET, nVDD_FAULT, nBATT_FAULT, PWR_SDA, GPIO0 and

GPIO1 must be powered from the VCC_BATT supply. This also applies to all

other digital outputs such as the JTAG signals driving PXA27x processor

inputs on the VCC_REG domain. Any devices that have a digital input driven

by a PXA27x processor digital output powered from the VCC_REG domain

must tolerate output high drive levels between 2.25 V and 3.75 V.

NOTE: VCC_BATT must be driven by a regulator whose output is matched to the

VCC_IO regulator so that VCC_IO and VCC_BATT remain within 200 mV of

each other when the VCC_IO regulator is enabled.

VCC_CORE

CORE VOLTAGE:

Dynamically variable core voltage of 0.85 V to 1.55 V. VCC_CORE also powers internal

peripheral logic blocks such as the memory controller, LCD controller, digital audio, and

serial ports. It does not power the internal SRAM. In a full featured system, this supply

is software controllable as described in Section 6.1, “VCC_CORE Regulator and

Dynamic Voltage Management” on page 29. In a simple system, this supply might be a

fixed voltage chosen to meet the minimum voltage requirement for the highest

frequency at which the PXA27x processor operates. In systems that use standby mode,

there must also be a provision to set VCC_CORE to 1.10 V (±10%) prior to entry into

standby mode. VCC_CORE must be enabled when PWR_EN is asserted and disabled

when PWR_EN is de-asserted.

VCC_PLL

PHASE-LOCK LOOP VOLTAGE:

1.3 V (±10%) for internal PLL circuits, fixed. VCC_PLL must not be connected to

VCC_CORE, even though they both may be at the same voltage: 1.3 V. A separate

low-noise voltage source is recommended to keep the PLL supply clean. This supply

must be enabled when PWR_EN is asserted and disabled when PWR_EN is

de-asserted.

VCC_SRAM

Power for the internal SRAM during operation in run or turbo modes. This supply is

fixed at 1.1 V (±10%). If the core supply (VCC_CORE) is also fixed at 1.1V (no dynamic

voltage changes are used and the maximum core clock frequency is not supported),

these two supplies are connected together and powered by a common regulator. In

sleep and deep-sleep modes, VCC_SRAM is powered down and the internal SRAM

banks, under program control, are powered from an internal regulator connected to

VCC_BATT. Doing so retains their contents although no accesses are allowed.

VCC_SRAM must be enabled when PWR_EN is asserted and disabled when

PWR_EN is de-asserted.

Application Note

9