Intel Celeron M 420 1.60 GHz LF80538NE0251M 数据表
产品代码
LF80538NE0251M
62
Intel
®
Celeron
®
M Processor Datasheet
TRDY#
Input
TRDY# (Target Ready) is asserted by the target to indicate that it is ready to
receive a write or implicit writeback data transfer. TRDY# must connect the
appropriate pins of both FSB agents.
receive a write or implicit writeback data transfer. TRDY# must connect the
appropriate pins of both FSB agents.
TRST#
Input
TRST# (Test Reset) resets the Test Access Port (TAP) logic. TRST# must be
driven low during power on Reset. Please refer to the ITP700 Debug Port
Design Guide
driven low during power on Reset. Please refer to the ITP700 Debug Port
Design Guide
and the platform design guides for termination requirements and
implementation details.
V
CC
Input
Processor core power supply.
V
CCA
[3:0]
Input
V
CCA
provides isolated power for the internal processor core PLLs. Refer to the
platform design guides for complete implementation details.
V
CCP
Input
Processor I/O power supply.
V
CC
Q
[1:0]
Input
Quiet power supply for on die COMP circuitry. These pins should be connected
to V
to V
CCP
on the motherboard. However, these connections should enable addition
of decoupling on the V
CC
Q
lines if necessary.
V
CCSENSE
Output
V
CCSENSE
is an isolated low impedance connection to processor core power
(V
CC
). It can be used to sense or measure power near the silicon with little noise.
Please refer to the platform design guides for termination recommendations and
more details.
more details.
VID[5:0]
Output
VID[5:0] (Voltage ID) pins are used to support automatic selection of power
supply voltages (Vcc). Unlike some previous generations of processors, these
are CMOS signals that are driven by the Intel Celeron M processor. The voltage
supply for these pins must be valid before the VR can supply Vcc to the
processor. Conversely, the VR output must be disabled until the voltage supply
for the VID pins becomes valid. The VID pins are needed to support the
processor voltage specification variations. See
supply voltages (Vcc). Unlike some previous generations of processors, these
are CMOS signals that are driven by the Intel Celeron M processor. The voltage
supply for these pins must be valid before the VR can supply Vcc to the
processor. Conversely, the VR output must be disabled until the voltage supply
for the VID pins becomes valid. The VID pins are needed to support the
processor voltage specification variations. See
for the encoding of these
pins. The VR must supply the voltage that is requested by the pins, or disable
itself.
itself.
V
SSSENSE
Output
V
SSSENSE
is an isolated low impedance connection to processor core V
SS
. It can
be used to sense or measure ground near the silicon with little noise. Please
refer to the platform design guides for termination recommendations and more
details.
refer to the platform design guides for termination recommendations and more
details.
Table 25. Signal Description (Sheet 7 of 7)
Name
Type
Description