參數(shù)資料
型號(hào): LPC47N227-MN
廠商: STANDARD MICROSYSTEMS CORP
元件分類: 外設(shè)及接口
英文描述: 100 Pin Super I/O with LPC Interface for Notebook Applications
中文描述: MULTIFUNCTION PERIPHERAL, PQFP100
封裝: STQFP-100
文件頁(yè)數(shù): 118/228頁(yè)
文件大?。?/td> 1269K
代理商: LPC47N227-MN
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Note 2
: GP36-GP37 and GP40 should not be connected to any VTR powered external circuitry. These
pins are not used for wakeup.
Note 3
: GP60 and GP61 have LED functionality which must be active under VTR so its buffer is
powered by VTR.
Note 4
: These pins can be used for wakeup events to generate a PME while the part is under VTR power
(VCC=0).
Note 5
: These pins cannot be used for wakeup events to generate a PME while the part is under VTR power
(VCC=0). The GP32, GP33 and GP53 pins come up as output and low on a VCC POR and PCI reset.
Note 6
: GP43 defaults to the GPIO function on VCC POR and PCI Reset.
7.12.6 EITHER EDGE TRIGGERED INTERRUPTS
Six GPIO pins are implemented such that they allow an interrupt (PME or SMI) to be generated on both a high-to-low
and a low-to-high edge transition, instead of one or the other as selected by the polarity bit.
The either edge triggered interrupts (EETI) function as follows: If the EETI function is selected for the GPIO pin, then
the bits that control input/output, polarity and open drain/push-pull have no effect on the function of the pin. However,
the polarity bit does affect the value of the GP bit (i.e., register GP2, bit 2 for GP22).
A PME or SMI interrupt occurs if the PME or SMI enable bit is set for the corresponding GPIO and the EETI function
is selected on the GPIO. The PME or SMI status bits are set when the EETI pin transitions (on either edge) and are
cleared on a write of ‘1’. There are also status bits for the EETIs located in the MSC_STS register, which are also
cleared on a write of ‘1’. The MSC_STS register provides the status of all of the EETI interrupts within one register.
The PME, SMI or MSC status is valid whether or not the interrupt is enabled and whether or not the EETI function is
selected for the pin.
Miscellaneous Status Register (MSC_STS) is for the either edge triggered interrupt status bits. If the EETI function is
selected for a GPIO then both a high-to-low and a low-to-high edge will set the corresponding MSC status bits.
Status bits are cleared on a write of ‘1’. See the “Runtime Registers” section for more information.
The configuration register for the either edge triggered interrupt status bits is defined in the “Runtime Registers”
section.
7.12.7 LED FUNCTIONALITY
The LPC47M192 provides LED functionality on two GPIOs, GP60 and GP61. These pins can be configured to turn
the LED on and off and blink independent of each other through the LED1 and LED2 runtime registers at offset 0x5D
and 0x5E from the base address located in the primary base I/O address in Logical Device A.
The LED pins (GP60 and GP61) are able to control the LED while the part is under VTR power with VCC removed.
In order to control a LED while the part is under VTR power, the GPIO pin must be configured for the LED function
and either open drain or push-pull buffer type. In the case of open-drain buffer type, the pin is capable of sinking
current to control the LED. In the case of push-pull buffer type, the part will source current. The part is also able to
blink the LED under VTR power. The LED will not blink under VTR power (VCC removed) if the external 32kHz clock
is not connected.
The LED pins can drive a LED when the buffer type is configured to be push-pull and the part is powered by either
VCC or VTR, since the buffers for these pins are powered by VTR. This means they will source their specified current
from VTR even when VCC is present.
The LED control registers are defined in the “Runtime Register” section.
7.13 SYSTEM MANAGEMENT INTERRUPT (SMI)
SMSC DS – LPC47M192
Page 118
Rev. 03/30/05
DATASHEET
The LPC47M192 implements a “group” nIO_SMI output pin. The System Management Interrupt is a non-maskable
interrupt with the highest priority level used for OS transparent power management. The nSMI group interrupt output
consists of the enabled interrupts from each of the functional blocks in the chip and many of the GPIOs and the Fan
tachometer pins. The GP27/nIO_SMI pin, when selected for the nIO_SMI function, can be programmed to be active
high or active low via the polarity bit in the GP27 register. The output buffer type of the pin can be programmed to be
open-drain or push-pull via bit 7 of the GP27 register. The nIO_SMI pin function defaults to active low, open-drain
output.
The interrupts are enabled onto the group nSMI output via the SMI Enable Registers 1 to 5. The nSMI output is then
enabled onto the group nIO_SMI output pin via bit[7] in the SMI Enable Register 2. The SMI output can also be
相關(guān)PDF資料
PDF描述
LPC47N227TQFP 100 Pin Super I/O with LPC Interface for Notebook Applications
LPC47M182-NR ADVANCED I/O CONTROLLER WITH MOTHERBOARD GLUE LOGIC
LPC47M182-NW ADVANCED I/O CONTROLLER WITH MOTHERBOARD GLUE LOGIC
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