NG80386SX-33 AMD [Advanced Micro Devices], NG80386SX-33 Datasheet - Page 4
NG80386SX-33
Manufacturer Part Number
NG80386SX-33
Description
High-Performance, Low-Power, Embedded Microprocessors
Manufacturer
AMD [Advanced Micro Devices]
Datasheet
1.NG80386SX-33.pdf
(30 pages)
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For example, the system could operate at low speeds
during inactivity or polling operations. However, upon
interrupt, the system clock can be increased up to its
maximum speed. After a user-defined time-out period,
the system can be returned to a low (or 0 MHz) operat-
ing speed without losing its state. This design maximiz-
es battery life while achieving optimal performance.
Benefits of Lower Operating Voltage
(Am386SXLV Only)
The Am386SXLV microprocessor has an operating
voltage range of 3.0 V to 5.5 V. Low voltage allows for
lower operating power consumption, longer battery life,
and/or smaller batteries for portable applications.
Because power is proportional to the square of the volt-
age, reduction of the supply voltage from 5.0 V to 3.3 V
reduces power consumption by 56%. This directly
translates to a doubling of battery life for portable appli-
cations. Lower power consumption can also be used to
reduce the size and weight of the battery. Thus, 3.3-V
designs facilitate a reduction in the form factor.
A lower operating voltage results in a reduction of I/O
voltage swings. This reduces noise generation and
provides a less hostile environment for board design.
Lower operating voltage also reduces electromagnetic
radiation noise and makes FCC approval easier to ob-
tain.
SMM—System Management Mode
(Am386SXLV Only)
The Am386SXLV microprocessor has a System Man-
agement Mode (SMM) for system and power manage-
ment. This mode consists of two features: System
Management Interrupt (SMI) and I/O instruction break.
SMI—System Management Interrupt
SMI is implemented by using special bus interface
pins. This interrupt method can be used to perform sys-
tem management functions such as power manage-
ment independent of processor operating mode (Real,
Protected, or Virtual 8086 modes).
SMI can also be invoked in software. This allows sys-
tem software to communicate with SMI power manage-
ment code. In addition, the UMOV instruction allows
data transfers between SMI and normal system mem-
ory spaces.
Activating the SMI pin invokes a sequence that saves
the operating state of the processor into a separate
SMM memory space, independent of the main system
memory. After the state is saved, the processor is
forced into Real mode and begins execution at address
FFFFF0h in the SMM memory space where a far jump
4
Am386SX/SXL/SXLV Microprocessors Data Sheet
F I N A L
to the SMM code is executed. This Real mode code
can perform its system management function and then
resume execution of the normal system software by ex-
ecuting an RES3 instruction which will reload the saved
processor state and continue execution in the main
system memory space. See Figure 1 for a general flow-
chart of an SMM operation.
CPU Interface—Pin Functions
The CPU interface for SMM consists of three pins ded-
icated to the SMI function. One pin, SMI, is the interrupt
input. The other two pins, SMIADS and SMIRDY, pro-
vide the control signals necessary for the separate
SMM mode memory space.
starting at address 60000h
handler code execution (af-
60000h with RES3 (0F 07)
normal ADS goes inactive
rate SMM memory space,
CPU saves state to sepa-
Real Mode SMM interrupt
Restore saved state from
CPU enters Real Mode,
Figure 1. SMM Flow
starts code fetches at
SMM memory space
location FFFFF0h in
Current instruction
finishes execution,
opcode sequence
ter FAR JUMP)
SMI sampled
active (Low)
Normal code
execution
resumes
16305C–002
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