Intel E5220 EU80573KJ0536M Ficha De Dados
Códigos do produto
EU80573KJ0536M
Dual-Core Intel® Xeon® Processor 5200 Series Electrical Specifications
36
2.14
AGTL+ FSB Specifications
Routing topologies are dependent on the processors supported and the chipset used in
the design. Please refer to the appropriate platform design guidelines for specific
implementation details.
the design. Please refer to the appropriate platform design guidelines for specific
implementation details.
In most cases, termination resistors are not required as these
are integrated into the processor silicon. See
for details on which signals do
for R
TT
values.
Valid high and low levels are determined by the input buffers via comparing with a
reference voltage called GTLREF_DATA and GTLREF_ADD. GTLREF_DATA is the
reference voltage for the FSB 4X data signals, GTLREF_ADD is the reference voltage for
the FSB 2X address signals and common clock signals.
reference voltage called GTLREF_DATA and GTLREF_ADD. GTLREF_DATA is the
reference voltage for the FSB 4X data signals, GTLREF_ADD is the reference voltage for
the FSB 2X address signals and common clock signals.
GTLREF_DATA and GTLREF_ADD specifications.
The AGTL+ reference voltages (GTLREF_DATA and GTLREF_ADD) must be generated
on the baseboard using high precision voltage divider circuits. Refer to the appropriate
platform design guidelines for implementation details.
on the baseboard using high precision voltage divider circuits. Refer to the appropriate
platform design guidelines for implementation details.
Notes:
1.
Unless otherwise noted, all specifications in this table apply to all processor frequencies.
2.
The tolerances for this specification have been stated generically to enable system designer to calculate the
minimum values across the range of V
TT
.
3.
GTLREF_DATA and GTLREF_ADD is generated from V
TT
on the baseboard by a voltage divider of 1%
resistors. The minimum and maximum specifications account for this resistor tolerance. Refer to the
appropriate platform design guidelines for implementation details. The V
TT
referred to in these
specifications is the instantaneous V
TT
.
4.
R
TT
is the on-die termination resistance measured at V
OL
of the AGTL+ output driver. Measured at
0.31*V
TT
. R
TT
is connected to V
TT
on die. Refer to processor I/O Buffer Models for I/V characteristics.
5.
This specified range is also applicable for the DP[3:0]# and DRDY# Common Clock signals. Refer to
for AGTL+ signal grouping and details on signals that include on-die termination
6.
The DP[3:0]# and DRDY# Common Clock signals are not included in this range. Refer to
for AGTL+ signal grouping and details on signals that include on-die termination.
Table 2-18. AGTL+ Bus Voltage Definitions
Symbol
Parameter
Min
Typ
Max
Units
Notes
1
GTLREF_DATA
Data Bus Reference
Voltage
0.98 *
0.667 * V
TT
0.667 *
V
TT
1.02*0.667
* V
TT
V
2, 3
GTLREF_ADD
Address Bus Reference
Voltage
0.98 *
0.667 * V
TT
0.667 *
V
TT
1.02*0.667
* V
TT
V
2, 3
R
TT
Termination
Resistance (pull up)
for Data Signals
for Data Signals
43
49
55
Ω
4, 5
R
TT
Termination
Resistance (pull up)
for Common Clock and
for Common Clock and
Address Signals
40
49
58
Ω
4, 6
Table 2-19. FSB Differential BCLK Specifications (Sheet 1 of 2)
Symbol
Parameter
Min
Typ
Max
Unit
Figure
Notes
1
V
L
Input Low Voltage
-0.150
0.0
0.150
V
V
H
Input High Voltage
0.660
0.710
0.850
V
V
CROSS(abs)
Absolute Crossing Point
0.250
0.350
0.550
V
2,9
V
CROSS(rel)
Relative Crossing Point
0.250 +
0.5 *
(V
Havg
-
0.700)
N/A
0.550 +
0.5 *
(V
Havg
-
0.700)
V
3,8,9,11
Δ
VCROSS
Range of Crossing
Points
N/A
N/A
0.140
V