Acer Intel Celeron G530 KC.53001.CDG Manual De Usuario
Los códigos de productos
KC.53001.CDG
24
Intel
®
Celeron
®
Processor on 0.13 Micron Process in the 478-Pin Package
Datasheet
Electrical Specifications
NOTES:
1. The loadline specification includes both static and transient limits.
2. This loadline figure applies to any VID setting. Refer to
2. This loadline figure applies to any VID setting. Refer to
3. The loadlines specify voltage limits at the die measured at VCC_SENSE and VSS_SENSE pins. Voltage
regulation feedback for voltage regulator circuits must be taken from processor VCC and VSS pins. Refer to
the Intel
the Intel
£
Pentium
£
4 Processor VR-Down Design Guidelines, VCC and VSS socket loadline specifications,
and VR implementation details.
4. Adherence to this loadline specification for the Celeron processor on 0.13 micron process is required to
ensure reliable processor operation.
55
–0.105
–0.145
–0.185
60
–0.114
–0.156
–0.197
65
–0.124
–0.166
–0.209
70
–0.133
–0.177
–0.222
NOTES:
1.
The loadline specifications include both static and transient limits.
2.
This table is intended to aid in reading discrete points on the following loadline figure and applies to any VID
setting.
setting.
3.
The loadlines specify voltage limits at the die measured at VCC_SENSE and VSS_SENSE pins. Voltage reg-
ulation feedback for voltage regulator circuits must be taken from processor VCC and VSS pins. Refer to the
Intel
ulation feedback for voltage regulator circuits must be taken from processor VCC and VSS pins. Refer to the
Intel
£
Pentium
£
4 Processor VR-Down Design Guidelines for VCC and VSSsocket loadline specifications
and VR implementation details.
4.
Adherence to this loadline specification for the Celeron processor on 0.13 micron process is required to en-
sure reliable processor operation.
sure reliable processor operation.
Figure 4. VCC Static and Transient Tolerance
Table 8. VCC Static and Transient Tolerance (Sheet 2 of 2)
I
CC
(A)
Voltage Deviation from VID Setting (V)
1,2,3,4
Maximum
Typical
Minimum
70
60
50
40
I
CC
(A)
30
20
10
0
VID -250 mV
VID -200 mV
VID -150 mV
VID -50 mV
VID -100 mV
VID
VID +50 mV
V
CC
(V
)
V
CC
Maximum
V
CC
Typical
V
CC
Minimum