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Intel® Xeon® Processor E5-2400 v2 Product Family 131

Datasheet Volume One

Electrical Specifications

Notes:

1. 00h = Off State

2. VID Range HEX 01-32 are not used by the processor.

3. For VID Ranges supported see Table 7-12.

4. VCCD is a fixed voltage of 1.35V or 1.5V.

7.1.10 Reserved or Unused Signals

All Reserved (RSVD) signals must not be connected. Connection of these signals to V

TTA

, V

TTD

, V

CCD,

CCPLL

, V

, or to any other signal (including each other) can result in

component malfunction or incompatibility with future processors. See Chapter 8,

"Processor Land Listing," for a land listing of the processor and the location of all

Reserved signals.

For reliable operation, always connect unused inputs or bi-directional signals to an

appropriate signal level. Unused active high inputs should be connected through a

resistor to ground (V

). Unused outputs maybe left unconnected; however, this may

interfere with some Test Access Port (TAP) functions, complicate debug probing, and

prevent boundary scan testing. A resistor must be used when tying bi-directional

3A 0.53500 5D 0.71000 80 0.88500 A3 1.06000 C6 1.23500 E9 1.41000

3B 0.54000 5E 0.71500 81 0.89000 A4 1.06500 C7 1.24000 EA 1.41500

3C 0.54500 5F 0.72000 82 0.89500 A5 1.07000 C8 1.24500 EB 1.42000

3D 0.55000 60 0.72500 83 0.90000 A6 1.07500 C9 1.25000 EC 1.42500

3E 0.55500 61 0.73000 84 0.90500 A7 1.08000 CA 1.25500 ED 1.43000

3F 0.56000 62 0.73500 85 0.91000 A8 1.08500 CB 1.26000 EE 1.43500

40 0.56500 63 0.74000 86 0.91500 A9 1.09000 CC 1.26500 EF 1.44000

41 0.57000 64 0.74500 87 0.92000 AA 1.09500 CD 1.27000 F0 1.44500

42 0.57500 65 0.75000 88 0.92500 AB 1.10000 CE 1.27500 F1 1.45000

43 0.58000 66 0.75500 89 0.93000 AC 1.10500 CF 1.28000 F2 1.45500

44 0.58500 67 0.76000 8A 0.93500 AD 1.11000 D0 1.28500 F3 1.46000

45 0.59000 68 0.76500 8B 0.94000 AE 1.11500 D1 1.29000 F4 1.46500

46 0.59500 69 0.77000 8C 0.94500 AF 1.12000 D2 1.29500 F5 1.47000

47 0.60000 6A 0.77500 8D 0.95000 B0 1.12500 D3 1.30000 F6 1.47500

48 0.60500 6B 0.78000 8E 0.95500 B1 1.13000 D4 1.30500 F7 1.48000

49 0.61000 6C 0.78500 8F 0.96000 B2 1.13500 D5 1.31000 F8 1.48500

4A 0.61500 6D 0.79000 90 0.96500 B3 1.14000 D6 1.31500 F9 1.49000

4B 0.62000 6E 0.79500 91 0.97000 B4 1.14500 D7 1.32000 FA 1.49500

4C 0.62500 6F 0.80000 92 0.97500 B5 1.15000 D8 1.32500 FB 1.50000

4D 0.63000 70 0.80500 93 0.98000 B6 1.15500 D9 1.33000 FC 1.50500

4E 0.63500 71 0.81000 94 0.98500 B7 1.16000 DA 1.33500 FD 1.51000

4F 0.64000 72 0.81500 95 0.99000 B8 1.16500 DB 1.34000 FE 1.51500

50 0.64500 73 0.82000 96 0.99500 B9 1.17000 DC 1.34500 FF 1.52000

51 0.65000 74 0.82500 97 1.00000 BA 1.17500 DD 1.35000

52 0.65500 75 0.83000 98 1.00500 BB 1.18000 DE 1.35500

53 0.66000 76 0.83500 99 1.01000 BC 1.18500 DF 1.36000

54 0.66500 77 0.84000 9A 1.01500 BD 1.19000 E0 1.36500

Table 7-3. VR12.0 Reference Code Voltage Identification (VID) Table (Sheet 2 of 2)

HEX

VCC, VSA,

VCCD

HEX

VCC, VSA,

VCCD

HEX

VCC, VSA,

VCCD

HEX

VCC, VSA,

VCCD

HEX

VCC, VSA,

VCCD

HEX

VCC, VSA,

VCCD