pga370 ETC-unknow, pga370 Datasheet - Page 50
pga370
Manufacturer Part Number
pga370
Description
Mpu Pentium Iii 64-bit 0.18um 700mhz 370-pin Fcpga
Manufacturer
ETC-unknow
Datasheet
1.PGA370.pdf
(94 pages)
Pentium
3.3.5
50
Table 24. Example Platform Information
Note: Activity factor for AGTL+ signals is referenced to BCLK frequency.
Note: Activity factor for CMOS signals is referenced to PICCLK frequency.
®
III Processor for the PGA370 Socket at 500 MHz to 1.13 GHz
just meets the pulse duration for a specific magnitude where the AF < 1, means that there can be
NO other overshoot/undershoot events, even of lesser magnitude (note that if AF = 1, then the
event occurs at all times and no other events can occur).
Reading Overshoot/Undershoot Specification Tables
The overshoot/undershoot specification for the Pentium III processor for the PGA370 socket is not
a simple single value. Instead, many factors are needed to determine what the over/undershoot
specification is. In addition to the magnitude of the overshoot, the following parameters must also
be known: the junction temperature the processor will be operating at, the width of the overshoot
(as measured above 1.635 V) and the Activity Factor (AF). To determine the allowed overshoot for
a particular overshoot event, the following must be done:
The above procedure is similar for undershoots after the undershoot waveform has been converted
to look like an overshoot. Undershoot events must be analyzed separately from Overshoot events
as they are mutually exclusive.
Below is an example showing how the maximum pulse duration is determined for a given
waveform.
NOTES:
Given the above parameters, and using
pulse duration is 2.4 ns. Since the measure pulse duration is 2.0 ns, this particular overshoot event
passes the overshoot specifications, although this doesn't guarantee that the combined overshoot/
undershoot events meet the specifications.
1. Corresponding Maximum Pulse Duration Specification - 2.4 ns
2. Pulse Duration (measured) - 2.0 ns
FSB Signal Group
Max Tj
Overshoot Magnitude
Activity Factor (AF)
1. Determine the signal group that particular signal falls into. If the signal is an AGTL+ signal
2. Determine the maximum junction temperature (Tj) for the range of processors that the system
3. Determine the Magnitude of the overshoot (relative to V
4. Determine the Activity Factor (how often does this overshoot occur?)
5. From the appropriate Specification table, read off the Maximum Pulse Duration (in ns)
6. Compare the specified Maximum Pulse Duration to the signal being measured. If the Pulse
operating with a 100 MHz system bus, use
signal is an AGTL+ signal operating with a 133MHz system bus, use
AGTL+ signal group). If the signal is a CMOS signal, use
group).
will support (80
allowed.
Duration measured is less than the Pulse Duration shown in the table, then the signal meets the
specifications.
Required Information
o
C or 85
o
C).
Maximum Platform Support
Table 26
133 MHz AGTL+
2.13V
85 °C
Table 25
0.1
(85
o
C/AF = 0.1 column) the maximum allowed
(100MHz AGTL+ signal group). If the
SS
Table 27
)
Measured Value
Measured overshoot occurs on
average every 20 clocks
(33 MHz CMOS signal
Table 26
Notes
(133 MHz
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