Virtex-5 FPGA Data Sheet_图文

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics
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DS202 (v5.0) February 6, 2009

Product Specification

Virtex-5 FPGA Electrical Characteristics
Virtex?-5 FPGAs are available in -3, -2, -1 speed grades, with -3 having the highest performance. Virtex-5 FPGA DC and AC characteristics are specified for both commercial and industrial grades. Except the operating temperature range or unless otherwise noted, all the DC and AC electrical parameters are the same for a particular speed grade (that is, the timing characteristics of a -1 speed grade industrial device are the same as for a -1 speed grade commercial device). However, only selected speed grades and/or devices might be available in the industrial range. All supply voltage and junction temperature specifications are representative of worst-case conditions. The parameters included are common to popular designs and typical applications. This Virtex-5 FPGA data sheet, part of an overall set of documentation on the Virtex-5 family of FPGAs, is available on the Xilinx website:
? ? ? ? ? ? ? ? ? ? ? ? Virtex-5 Family Overview Virtex-5 FPGA User Guide Virtex-5 FPGA Configuration Guide Virtex-5 FPGA XtremeDSP? Design Considerations Virtex-5 FPGA Packaging and Pinout Specification Embedded Processor Block in Virtex-5 FPGAs Reference Guide Virtex-5 FPGA RocketIO? GTP Transceiver User Guide Virtex-5 FPGA RocketIO GTX Transceiver User Guide Virtex-5 FPGA Embedded Tri-Mode Ethernet MAC User Guide Virtex-5 FPGA Integrated Endpoint Block User Guide for PCI Express? Designs Virtex-5 FPGA System Monitor User Guide Virtex-5 FPGA PCB Designer’s Guide

All specifications are subject to change without notice.

Virtex-5 FPGA DC Characteristics
Table 1: Absolute Maximum Ratings
Symbol VCCINT VCCAUX VCCO VBATT VREF Description Internal supply voltage relative to GND Auxiliary supply voltage relative to GND Output drivers supply voltage relative to GND Key memory battery backup supply Input reference voltage 3.3V I/O input voltage relative to GND(4) (user and dedicated I/Os) 3.3V I/O input voltage relative to GND (restricted to maximum of 100 user I/Os)(5) 2.5V or below I/O input voltage relative to GND (user and dedicated I/Os) IIN VTS TSTG TSOL TJ Current applied to an I/O pin, powered or unpowered Total current applied to all I/O pins, powered or unpowered Voltage applied to 3-state 3.3V output(4) (user and dedicated I/Os) Voltage applied to 3-state 2.5V or below output (user and dedicated I/Os) Storage temperature (ambient) Maximum soldering temperature(2) Maximum junction temperature(2) –0.5 to 1.1 –0.5 to 3.0 –0.5 to 3.75 –0.5 to 4.05 –0.5 to 3.75 –0.75 to 4.05 –0.95 to 4.4 (Commercial Temperature) –0.85 to 4.3 (Industrial Temperature) –0.75 to VCCO + 0.5 ±100 ±100 –0.75 to 4.05 –0.75 to VCCO + 0.5 –65 to 150 +220 +125 Units V V V V V V V V mA mA V V °C °C °C

VIN(3)

Notes: 1. Stresses beyond those listed under Absolute Maximum Ratings might cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those listed under Operating Conditions is not implied. Exposure to Absolute Maximum Ratings conditions for extended periods of time might affect device reliability. 2. For soldering guidelines, refer to UG112: Device Package User Guide. For thermal considerations, refer to UG195: Virtex-5 FPGA Packaging and Pinout Specification on the Xilinx website. 3. 3.3V I/O absolute maximum limit applied to DC and AC signals. 4. For 3.3V I/O operation, refer to UG190: Virtex-5 FPGA User Guide, Chapter 6, 3.3V I/O Design Guidelines. 5. For more flexibility in specific designs, a maximum of 100 user I/Os can be stressed beyond the normal specification for no more than 20% of a data period.
? 2006–2009 Xilinx, Inc. XILINX, the Xilinx logo, Virtex, Spartan, ISE, and other designated brands included herein are trademarks of Xilinx in the United States and other countries. PowerPC is a trademark of IBM Corp. and is used under license. PCI, PCI Express, PCIe, and PCI-X are trademarks of PCI-SIG. All other trademarks are the property of their respective owners.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 2: Recommended Operating Conditions
Symbol
VCCINT

Description
Internal supply voltage relative to GND, TJ = 0°C to +85°C Internal supply voltage relative to GND, TJ = –40°C to +100°C Auxiliary supply voltage relative to GND, TJ = 0°C to +85°C Auxiliary supply voltage relative to GND, TJ = –40°C to +100°C Supply voltage relative to GND, TJ = 0°C to +85°C Supply voltage relative to GND, TJ = –40°C to +100°C 3.3V supply voltage relative to GND, TJ = 0°C to +85°C 3.3V supply voltage relative to GND, TJ = –40°C to +100°C 2.5V and below supply voltage relative to GND, TJ = 0°C to +85°C 2.5V and below supply voltage relative to GND, TJ = –40°C to +100°C

Temperature Range
Commercial Industrial Commercial Industrial Commercial Industrial Commercial Industrial Commercial Industrial Commercial Industrial Commercial Industrial

Min
0.95 0.95 2.375 2.375 1.14 1.14 GND – 0.20 GND – 0.20 GND – 0.20 GND – 0.20

Max
1.05 1.05 2.625 2.625 3.45 3.45 3.45 3.45 VCCO + 0.2 VCCO + 0.2 10 10

Units
V V V V V V V V V V mA mA V V

VCCAUX(1)

VCCO(2,4,5)

VIN

IIN VBATT(3)

Maximum current through any pin in a powered or unpowered bank when forward biasing the clamp diode. Battery voltage relative to GND, TJ = 0°C to +85°C Battery voltage relative to GND, TJ = –40°C to +100°C

1.0 1.0

3.6 3.6

Notes: 1. Recommended maximum voltage drop for VCCAUX is 10 mV/ms. 2. Configuration data is retained even if VCCO drops to 0V. 3. VBATT is required only when using bitstream encryption. If battery is not used, connect VBATT to either ground or VCCAUX. 4. Includes VCCO of 1.2V, 1.5V, 1.8V, 2.5V, and 3.3V. 5. The configuration supply voltage VCC_CONFIG is also known as VCCO_0

Table 3: DC Characteristics Over Recommended Operating Conditions
Symbol
VDRINT VDRI IREF IL CIN

Description
Data retention VCCINT voltage (below which configuration data might be lost) Data retention VCCAUX voltage (below which configuration data might be lost) VREF leakage current per pin Input or output leakage current per pin (sample-tested) Input capacitance (sample-tested) Pad pull-up (when selected) @ VIN = 0V, VCCO = 3.3V Pad pull-up (when selected) @ VIN = 0V, VCCO = 2.5V

Data Rate

Min
0.75 2.0

Typ

Max

Units
V V

10 10 8 20 10 5 3 2 5 150 90 45 30 15 110 150 1.0002 5.0

?A ?A pF ?A ?A ?A ?A ?A ?A nA n Ω

IRPU(1)

Pad pull-up (when selected) @ VIN = 0V, VCCO = 1.8V Pad pull-up (when selected) @ VIN = 0V, VCCO = 1.5V Pad pull-up (when selected) @ VIN = 0V, VCCO = 1.2V

IRPD(1) IBATT(2) n r

Pad pull-down (when selected) @ VIN = 2.5V Battery supply current Temperature diode ideality factor Series resistance

Notes: 1. Typical values are specified at nominal voltage, 25°C. 2. Maximum value specified for worst case process at 25°C.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Important Note
Typical values for quiescent supply current are now specified at nominal voltage, 85°C junction temperatures (Tj). Xilinx recommends analyzing static power consumption at Tj = 85°C because the majority of designs operate near the high end of the commercial temperature range. Data sheets for older products (e.g., Virtex-4 devices) still specify typical quiescent supply current at Tj = 25°C. Quiescent supply current is specified by speed grade for Virtex-5 devices. Use the XPOWER? Estimator (XPE) spreadsheet tool (download at http://www.xilinx.com/power) to calculate static power consumption for conditions other than those specified in Table 4. Table 4: Typical Quiescent Supply Current
Symbol
ICCINTQ

Description
Quiescent VCCINT supply current

Device
XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed and Temperature Grade -3 (C)
N/A 480 507 651 689 1072 1115 1391 1448 2615 2674 N/A N/A N/A N/A 720 1092 N/A N/A N/A N/A 1024 1658 2875 3041 N/A

-2 (C & I)
406 480 507 651 689 1072 1115 1391 1448 2615 2674 2783 2844 4193 4267 720 1092 1924 4137 2067 2881 1024 1658 2875 3041 3755

-1 (C & I)
253 300 317 449 475 833 866 1109 1154 2141 2188 2278 2328 3432 3492 554 840 1475 3168 2067 2881 1024 1658 2875 3041 3755

Units
mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 4: Typical Quiescent Supply Current (Cont’d)
Symbol
ICCOQ

Description
Quiescent VCCO supply current

Device
XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed and Temperature Grade -3 (C)
N/A 1.5 1.5 2 2 3 3 4 4 8 8 N/A N/A N/A N/A 1.5 2 N/A N/A N/A N/A 4 6 7 8 N/A

-2 (C & I)
2 1.5 1.5 2 2 3 3 4 4 8 8 8 8 12 12 1.5 2 4 12 7 7 4 6 7 8 10

-1 (C & I)
2 1.5 1.5 2 2 3 3 4 4 8 8 8 8 12 12 1.5 2 4 12 7 7 4 6 7 8 10

Units
mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 4: Typical Quiescent Supply Current (Cont’d)
Symbol
ICCAUXQ

Description

Device

Speed and Temperature Grade -3 (C)
N/A 38 43 57 62 93 98 125 130 172 177 N/A N/A N/A N/A 49 74 N/A N/A N/A N/A 60 110 150 180 N/A

-2 (C & I)
32 38 43 57 62 93 98 125 130 172 177 229 236 345 353 49 74 131 300 180 300 60 110 150 180 250

-1 (C & I)
32 38 43 57 62 93 98 125 130 172 177 229 236 345 353 49 74 131 300 180 300 60 110 150 180 250

Units
mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA

Quiescent VCCAUX supply current XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Notes: 1. Typical values are specified at nominal voltage, 85°C junction temperatures (Tj). Industrial (I) grade devices have the same typical values as commercial (C) grade devices at 85°C, but higher values at 100°C. Use the XPE tool to calculate 100°C values. 2. Typical values are for blank configured devices with no output current loads, no active input pull-up resistors, all I/O pins are 3-state and floating. 3. If DCI or differential signaling is used, more accurate quiescent current estimates can be obtained by using the XPOWER Estimator (XPE) or XPOWER Analyzer (XPA) tools.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Power-On Power Supply Requirements
Xilinx FPGAs require a certain amount of supply current during power-on to insure proper device initialization. The actual current consumed depends on the power-on ramp rate of the power supply. The power supplies can be turned on in any sequence, though the specifications shown in Table 5 are for the recommended power-on sequence of VCCINT, VCCAUX, and VCCO. The I/O will remain 3-stated through power-on if the recommended power-on sequence is followed. Xilinx does not specify the current or I/O behavior for other power-on sequences. Table 5 shows the minimum current required by Virtex-5 devices for proper power-on and configuration. If the current minimums shown in Table 5 are met, the device powers on properly after all three supplies have passed through their power-on reset threshold voltages. The FPGA must be configured after VCCINT is applied. Once initialized and configured, use the XPOWER tools to estimate current drain on these supplies. Table 5: Power-On Current for Virtex-5 Devices
Device
XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85

Table 5: Power-On Current for Virtex-5 Devices (Cont’d)
Device
XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T

ICCINTMIN Typ(1)
515 623 651 695 728 1023 1056 1470 1509 307 472 804 1632 969 1245 358 695 749 1111 1222

ICCAUXMIN Typ(1)
196 250 260 351 368 458 472 690 706 98 148 262 662 386 572 116 232 298 392 534

ICCOMIN Typ(1)
100 100 100 100 100 150 150 150 150 50 50 100 150 150 150 50 100 100 150 150

Units
mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA mA

ICCINTMIN Typ(1)
172 235 246 320 336 492

ICCAUXMIN Typ(1)
54 76 86 114 124 186

ICCOMIN Typ(1)
50 50 50 50 50 100

Units
mA mA mA mA mA mA

XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T
Notes:

1. 2.

Typical values are specified at nominal voltage, 25°C. The maximum startup current can be obtained using the XPOWER Estimator (XPE) or XPOWER Analyzer (XPA) tools and adding the quiescent plus dynamic current consumption.

Table 6: Power Supply Ramp Time
Symbol
VCCINT VCCO VCCAUX

Description
Internal supply voltage relative to GND Output drivers supply voltage relative to GND Auxiliary supply voltage relative to GND

Ramp Time
0.20 to 50.0 0.20 to 50.0 0.20 to 50.0

Units
ms ms ms

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

SelectIO? DC Input and Output Levels
Values for VIL and VIH are recommended input voltages. Values for IOL and IOH are guaranteed over the recommended operating conditions at the VOL and VOH test points. Only selected standards are tested. These are chosen to ensure that all standards meet their specifications. The selected standards are tested at a minimum VCCO with the respective VOL and VOH voltage levels shown. Other standards are sample tested. Table 7: SelectIO DC Input and Output Levels
I/O Standard
LVTTL LVCMOS33, LVDCI33 LVCMOS25, LVDCI25 LVCMOS18, LVDCI18 LVCMOS15, LVDCI15 LVCMOS12 PCI33_3(5) PCI66_3(5) PCI-X(5) GTLP GTL HSTL I_12 HSTL HSTL HSTL I(2) II(2) III(2)

VIL V, Min
–0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.2 –0.2 –0.2 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3 –0.3

VIH V, Max
0.8 0.8 0.7

VOL V, Max
3.45 3.45 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO VCCO VCCO – – VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3 VCCO + 0.3

VOH V, Min
2.4 VCCO – 0.4 VCCO – 0.4 VCCO – 0.45 75% VCCO 75% VCCO 90% VCCO 90% VCCO 90% VCCO N/A N/A 75% VCCO VCCO – 0.4 VCCO – 0.4 VCCO – 0.4 VCCO – 0.4 – – VTT + 0.61 VTT + 0.81 – – VTT + 0.47 VTT + 0.60 – –

IOL mA
Note(3) Note(3) Note(3) Note(4) Note(4) Note(6) Note(5) Note(5) Note(5) 36 32 6.3 8 16 24 48 – – 8.1 16.2 – – 6.7 13.4 – –

IOH mA
Note(3) Note(3) Note(3) Note(4) Note(4) Note(6) Note(5) Note(5) Note(5) N/A N/A 6.3 –8 –16 –8 –8 – – –8.1 –16.2 – – –6.7 –13.4 – –

V, Min
2.0 2.0 1.7 65% VCCO 65% VCCO 65% VCCO 50% VCCO 50% VCCO 50% VCCO VREF + 0.1 VREF + 0.05 VREF + 0.1 VREF + 0.1 VREF + 0.1 VREF + 0.1 VREF + 0.1 50% VCCO + 0.1 50% VCCO + 0.1 VREF + 0.15 VREF + 0.15

V, Max
0.4 0.4 0.4 0.45 25% VCCO 25% VCCO 10% VCCO 10% VCCO 10% VCCO 0.6 0.4 25% VCCO 0.4 0.4 0.4 0.4 – – VTT – 0.61 VTT – 0.81 – – VTT – 0.47 VTT – 0.60 – –

35% VCCO 35% VCCO 35% VCCO 30% VCCO 30% VCCO 35% VCCO VREF – 0.1 VREF – 0.05 VREF – 0.1 VREF – 0.1 VREF – 0.1 VREF – 0.1 VREF – 0.1 50% VCCO – 0.1 50% VCCO – 0.1 VREF – 0.15 VREF – 0.15

HSTL IV(2) DIFF HSTL I(2) DIFF HSTL II(2) SSTL2 I SSTL2 II DIFF SSTL2 I DIFF SSTL2 II SSTL18 I SSTL18 II DIFF SSTL18 I DIFF SSTL18 II

50% VCCO – 0.15 50% VCCO + 0.15 50% VCCO – 0.15 50% VCCO + 0.15 VREF – 0.125 VREF – 0.125 50% VCCO – 0.125 50% VCCO – 0.125 VREF + 0.125 VREF + 0.125 50% VCCO + 0.125 50% VCCO + 0.125

Notes: 1. Tested according to relevant specifications. 2. Applies to both 1.5V and 1.8V HSTL. 3. Using drive strengths of 2, 4, 6, 8, 12, 16, or 24 mA. 4. Using drive strengths of 2, 4, 6, 8, 12, or 16 mA. 5. For more information on PCI33_3, PCI66_3, and PCI-X, refer to UG190: Virtex-5 FPGA User Guide, Chapter 6, 3.3V I/O Design Guidelines. 6. Supported drive strengths of 2, 4, 6, or 8 mA.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

HT DC Specifications (HT_25)
Table 8: HT DC Specifications
Symbol
VCCO VOD Δ VOD VOCM Δ VOCM VID Δ VID VICM Δ VICM

DC Parameter
Supply Voltage Differential Output Voltage Change in VOD Magnitude Output Common Mode Voltage Change in VOCM Magnitude Input Differential Voltage Change in VID Magnitude Input Common Mode Voltage Change in VICM Magnitude

Conditions
RT = 100 Ω across Q and Q signals RT = 100 Ω across Q and Q signals

Min
2.38 495 –15 495 –15 200 –15 440 –15

Typ
2.5 600

Max
2.63 715 15

Units
V mV mV mV mV mV mV mV mV

600

715 15

600

1000 15

600

780 15

LVDS DC Specifications (LVDS_25)
Table 9: LVDS DC Specifications
Symbol
VCCO VOH VOL VODIFF VOCM VIDIFF VICM

DC Parameter
Supply Voltage Output High Voltage for Q and Q Output Low Voltage for Q and Q Differential Output Voltage (Q – Q), Q = High (Q – Q), Q = High Output Common-Mode Voltage Differential Input Voltage (Q – Q), Q = High (Q – Q), Q = High Input Common-Mode Voltage

Conditions
RT = 100 Ω across Q and Q signals RT = 100 Ω across Q and Q signals RT = 100 Ω across Q and Q signals RT = 100 Ω across Q and Q signals

Min
2.38

Typ
2.5

Max
2.63 1.675

Units
V V V

0.825 247 1.125 100 0.3 350 1.250 350 1.2 600 1.375 600 2.2

mV V mV V

Extended LVDS DC Specifications (LVDSEXT_25)
Table 10: Extended LVDS DC Specifications
Symbol
VCCO VOH VOL VODIFF VOCM VIDIFF VICM

DC Parameter
Supply Voltage Output High Voltage for Q and Q Output Low Voltage for Q and Q Differential Output Voltage (Q – Q), Q = High (Q – Q), Q = High Output Common-Mode Voltage Differential Input Voltage (Q – Q), Q = High (Q – Q), Q = High Input Common-Mode Voltage

Conditions
RT = 100 Ω across Q and Q signals RT = 100 Ω across Q and Q signals RT = 100 Ω across Q and Q signals RT = 100 Ω across Q and Q signals Common-mode input voltage = 1.25V Differential input voltage = ±350 mV

Min
2.38

Typ
2.5 –

Max
2.63 1.785 – 820 1.375 1000 2.2

Units
V V V mV V mV V

0.715 350 1.125 100 0.3

– – 1.250 – 1.2

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

LVPECL DC Specifications (LVPECL_25)
These values are valid when driving a 100Ω differential load only, i.e., a 100Ω resistor between the two receiver pins. The VOH levels are 200 mV below standard LVPECL levels and are compatible with devices tolerant of lower common-mode ranges. Table 11 summarizes the DC output specifications of LVPECL. For more information on using LVPECL, see UG190: Virtex-5 FPGA User Guide, Chapter 6, SelectIO Resources. Table 11: LVPECL DC Specifications
Symbol
VOH VOL VICM VIDIFF

DC Parameter
Output High Voltage Output Low Voltage Input Common-Mode Voltage Differential Input Voltage(1,2)

Min
VCC – 1.025 VCC – 1.81 0.6 0.100

Typ
1.545 0.795

Max
VCC – 0.88 VCC – 1.62 2.2 1.5

Units
V V V V

Notes: 1. Recommended input maximum voltage not to exceed VCCAUX + 0.2V. 2. Recommended input minimum voltage not to go below –0.5V.

PowerPC 440 Switching Characteristics
Consult the Embedded Processor Block in Virtex-5 FPGAs Reference Guide for further information. Table 12: Processor Block Switching Characteristics
Clock Name
CPMC440CLK CPMINTERCONNECTCLK CPMPPCS0PLBCLK CPMPPCS1PLBCLK CPMPPCMPLBCLK CPMMCCLK CPMFCMCLK CPMDCRCLK CPMDMA0LLCLK CPMDMA1LLCLK CPMDMA2LLCLK CPMDMA3LLCLK JTGC440TCK CPMC440TIMERCLOCK Notes:
1. 2. Typical bus frequencies are provided for reference only, actual frequencies are user-design dependent. Refer to DS567 for maximum clock speed of designs using the DDR2 Memory Controller for PowerPC? 440 Processors.

Description
CPU clock Xbar clock Slave 0 PLB Slave 1 PLB Master PLB clock(1) clock(1) clock(1) clock(1)(2) clock(1)

Speed Grade -3
550 366.6 183.3 183.3 183.3 366.6 275 183.3 250 250 250 250 50 275

-2
475 316.6 158.3 158.3 158.3 316.6 237.5 158.3 250 250 250 250 50 237.5

-1
400 266.6 133.3 133.3 133.3 266.6 200 133.3 200 200 200 200 50 200

Units
MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz

Memory interface FCM clock(1) clock(1) clock(1) clock(1) clock(1)

FPGA logic DCR DMA0 LL DMA1 LL DMA2 LL DMA3 LL

JTAG clock Timer clock

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 13: Processor Block MIB Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_ADDRESS TCK_DATA TCONTROL_CK TDATA_CK CPMMCCLK CPMMCCLK CPMMCCLK CPMMCCLK CPMMCCLK 1.146 1.017 1.076 0.736 0.834 1.247 1.136 1.172 0.844 0.95 1.463 1.38 1.38 0.941 1.058 ps ps ps ps ps

Table 14: Processor Block PLBM Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_ADDRESS TCK_DATA TCONTROL_CK TDATA_CK CPMPPCMPLBCLK CPMPPCMPLBCLK CPMPPCMPLBCLK CPMPPCMPLBCLK CPMPPCMPLBCLK 0.971 1.215 1.115 1.7 0.774 1.095 1.372 1.257 1.79 0.914 1.354 1.673 1.535 1.86 1.059 ps ps ps ps ps

Table 15: Processor Block PLBS0 Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_DATA TCONTROL_CK TADDRESS_CK TDATA_CK CPMPPCS0PLBCLK CPMPPCS0PLBCLK CPMPPCS0PLBCLK CPMPPCS0PLBCLK CPMPPCS0PLBCLK 1.063 1.052 1.307 1.253 0.825 1.196 1.189 1.545 1.492 0.971 1.462 1.461 1.836 1.787 1.124 ps ps ps ps ps

Table 16: Processor Block PLBS1 Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_DATA TCONTROL_CK TADDRESS_CK TDATA_CK CPMPPCS1PLBCLK CPMPPCS1PLBCLK CPMPPCS1PLBCLK CPMPPCS1PLBCLK CPMPPCS1PLBCLK 1.083 1.146 1.335 1.328 0.821 1.234 1.298 1.596 1.568 0.969 1.525 1.615 1.921 1.864 1.127 ps ps ps ps ps

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 17: Processor Block DMA0 Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_DATA TCONTROL_CK TDATA_CK CPMDMA0LLCLK CPMDMA0LLCLK CPMDMA0LLCLK CPMDMA0LLCLK 1.256 1.312 0.453 –0.105 1.42 1.472 0.558 –0.105 1.665 1.712 0.716 –0.104 ps ps ps ps

Table 18: Processor Block DMA1 Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_DATA TCONTROL_CK TDATA_CK CPMDMA1LLCLK CPMDMA1LLCLK CPMDMA1LLCLK CPMDMA1LLCLK 1.127 1.266 0.447 –0.014 1.266 1.418 0.555 0.01 1.474 1.645 0.717 0.046 ps ps ps ps

Table 19: Processor Block DMA2 Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_DATA TCONTROL_CK TDATA_CK CPMDMA2LLCLK CPMDMA2LLCLK CPMDMA2LLCLK CPMDMA2LLCLK 1.101 1.127 0.771 0.135 1.235 1.262 0.924 0.142 1.437 1.463 1.155 0.168 ps ps ps ps

Table 20: Processor Block DMA3 Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_DATA TCONTROL_CK TDATA_CK CPMDMA3LLCLK CPMDMA3LLCLK CPMDMA3LLCLK CPMDMA3LLCLK 1.094 1.056 0.636 0.087 1.242 1.184 0.767 0.119 1.462 1.376 0.965 0.116 ps ps ps ps

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 21: Processor Block DCR Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_ADDRESS TCK_DATA TCONTROL_CK TADDRESS_CK TDATA_CK CPMDCRCLK CPMDCRCLK CPMDCRCLK CPMDCRCLK CPMDCRCLK CPMDCRCLK

Table 22: Processor Block FCM Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_DATA TCK_INSTRUCTION TCONTROL_CK TDATA_CK TRESULT_CK CPMFCMCLK CPMFCMCLK CPMFCMCLK CPMFCMCLK CPMFCMCLK CPMFCMCLK 0.967 1.041 0.701 1.057 0.608 0.608 1.084 1.158 0.818 1.218 0.698 0.698 1.324 1.4 1.06 1.395 0.768 0.768 ps ps ps ps ps ps

Table 23: Processor Block MISC Switching Characteristics
Clock Name Description Reference Clock Speed Grade -3 -2 -1 Units

Clock-to-out and setup relative to clock
TCK_CONTROL TCK_ADDRESS TCK_DATA TCONTROL_CK TADDRESS_CK TDATA_CK CLK1 CLK2 CLK3 CLK4 CLK5 CLK6

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

GTP_DUAL Tile Specifications
GTP_DUAL Tile DC Characteristics
Table 24: Absolute Maximum Ratings for GTP_DUAL Tiles
Symbol
MGTAVCCPLL MGTAVTTTX MGTAVTTRX MGTAVCC MGTAVTTRXC

Description
Analog supply voltage for the GTP_DUAL shared PLL relative to GND Analog supply voltage for the GTP_DUAL transmitters relative to GND Analog supply voltage for the GTP_DUAL receivers relative to GND Analog supply voltage for the GTP_DUAL common circuits relative to GND Analog supply voltage for the resistor calibration circuit of the GTP_DUAL column –0.5 to 1.32 –0.5 to 1.32 –0.5 to 1.32 –0.5 to 1.1 –0.5 to 1.32

Units
V V V V V

Notes: 1. Stresses beyond those listed under Absolute Maximum Ratings might cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those listed under Operating Conditions is not implied. Exposure to Absolute Maximum Ratings conditions for extended periods of time might affect device reliability.

Table 25: Recommended Operating Conditions for GTP_DUAL Tiles(1)(2)
Symbol
MGTAVCCPLL(1) MGTAVTTTX(1) MGTAVTTRX(1) MGTAVCC(1) MGTAVTTRXC(1)

Description
Analog supply voltage for the GTP_DUAL shared PLL relative to GND Analog supply voltage for the GTP_DUAL transmitters relative to GND Analog supply voltage for the GTP_DUAL receivers relative to GND Analog supply voltage for the GTP_DUAL common circuits relative to GND Analog supply voltage for the resistor calibration circuit of the GTP_DUAL column

Min
1.14 1.14 1.14 0.95 1.14

Max
1.26 1.26 1.26 1.05 1.26

Units
V V V V V

Notes: 1. Each voltage listed requires the filter circuit described in UG196: Virtex-5 FPGA RocketIO GTP Transceiver User Guide. 2. Voltages are specified for the temperature range of TJ = –40°C to +100°C.

Table 26: DC Characteristics Over Recommended Operating Conditions for GTP_DUAL Tiles(1)
Symbol
IMGTAVTTTX IMGTAVCCPLL IMGTAVTTRXC IMGTAVTTRX IMGTAVCC MGTRREF

Description
GTP_DUAL tile transmitter termination supply current(2) GTP_DUAL tile shared PLL supply current GTP_DUAL tile resistor termination calibration supply current GTP_DUAL tile receiver termination supply current(3) GTP_DUAL tile internal analog supply current Precision reference resistor for internal calibration termination

Min

Typ
71 36 0.1 0.1 56

Max
90 60 0.5 0.5 110

Units
mA mA mA mA mA Ω

49.9 ± 1% tolerance

Notes: 1. Typical values are specified at nominal voltage, 25°C, with a 3.2 Gb/s line rate. 2. ICC numbers are given per GTP_DUAL tile with both GTP transceivers operating with default settings. 3. AC coupled TX/RX link.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 27: GTP_DUAL Tile Quiescent Supply Current
Symbol
IAVTTTXQ IAVCCPLLQ IAVTTRXQ IAVCCQ

Description
Quiescent MGTAVTTTX (transmitter termination) supply current Quiescent MGTAVCCPLL (PLL) supply current Quiescent MGTAVTTRX (receiver termination) supply current. Includes MGTAVTTRXCQ. Quiescent MGTAVCC (analog) supply current

Typ(1)
8.5 8 0.1 2.5

Max
18 18 0.8 11

Units
mA mA mA mA

Notes: 1. Typical values are specified at nominal voltage, 25°C. 2. Device powered and unconfigured. 3. Currents for conditions other than values specified in this table can be obtained by using the XPOWER Estimator (XPE) or XPOWER Analyzer (XPA) tools. 4. GTP_DUAL tile quiescent supply current for an entire device can be calculated by multiplying the values in this table by the number of available GTP_DUAL tiles in the target LXT or SXT device.

GTP_DUAL Tile DC Input and Output Levels
Table 28 summarizes the DC output specifications of the GTP_DUAL tiles in Virtex-5 FPGAs. Figure 1 shows the singleended output voltage swing. Figure 2 shows the peak-to-peak differential output voltage. Consult UG196:Virtex-5 FPGA RocketIO GTP Transceiver User Guide for further details. Table 28: GTP_DUAL Tile DC Specifications
Symbol
DVPPIN

DC Parameter
Differential peak-to-peak input voltage Absolute input voltage

Conditions
External AC coupled ≤ 3.2 Gb/s External AC coupled > 3.2 Gb/s DC coupled

Min
150 180 –400

Typ

Max
2000 2000 MGTAVTTRX + 400 up to 1320

Units
mV mV mV

VIN VCMIN DVPPOUT VSEOUT VCMOUT RIN ROUT TOSKEW CEXT Common mode input voltage DC coupled MGTAVTTRX = 1.2V 800

mV 1400 700 mV mV mV 120 120 15 Ω Ω ps nF

Differential peak-to-peak output TXBUFDIFFCTRL = 000, voltage (1) TX_DIFF_BOOST = ON Single-ended output voltage swing (1) Common mode output voltage Differential input resistance Differential output resistance Transmitter output skew Recommended external AC coupling capacitor(2) 75 100 TXBUFDIFFCTRL = 000, TX_DIFF_BOOST = ON Equation based MGTAVTTTX = 1.2V 90 90

1200 – Amplitude/2 100 100

200

Notes: 1. The output swing and preemphasis levels are programmable using the attributes discussed in UG196:Virtex-5 FPGA RocketIO GTP Transceiver User Guide and can result in values lower than reported in this table. 2. Values outside of this range can be used as appropriate to conform to specific protocols and standards.
X-Ref Target - Figure 1

+V

P VSEOUT
ds202_01_051607

N 0
Figure 1: Single-Ended Output Voltage Swing

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

X-Ref Target - Figure 2

+V

0

DVPPOUT DVPPIN

–V

P–N
ds202_02_051607

Figure 2: Peak-to-Peak Differential Output Voltage Table 29 summarizes the DC specifications of the clock input of the GTP_DUAL tile. Figure 3 shows the single-ended input voltage swing. Figure 4 shows the peak-to-peak differential clock input voltage swing. Consult UG196: Virtex-5 FPGA RocketIO GTP Transceiver User Guide for further details. Table 29: GTP_DUAL Tile Clock DC Input Specifications(1)
Symbol
VIDIFF VISE RIN CEXT

DC Parameter
Differential peak-to-peak input voltage Single-ended input voltage Differential input resistance Required external AC coupling capacitor

Conditions

Min
200 100 80 75

Typ
800 400 105 100

Max
2000 1000 130 200

Units
mV mV Ω nF

Notes: 1. VMIN = 0V and VMAX = 1200mV
X-Ref Target - Figure 3

+V

P

VISE
N

0
Figure 3: Single-Ended Clock Input Voltage Swing Peak-to-Peak
X-Ref Target - Figure 4

ds202_03_052708

+V

P–N

0

VIDIFF

–V
ds202_04_052708

Figure 4: Differential Clock Input Voltage Swing Peak-to-Peak

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

GTP_DUAL Tile Switching Characteristics
Consult UG196:Virtex-5 FPGA RocketIO GTP Transceiver User Guide for further information. Table 30: GTP_DUAL Tile Performance
Symbol
FGTPMAX FGPLLMAX FGPLLMIN

Description
Maximum GTP transceiver data rate Maximum PLL frequency Minimum PLL frequency

Speed Grade -3
3.75 2.0 1.0

-2
3.75 2.0 1.0

-1
3.2 2.0 1.0

Units
Gb/s GHz GHz

Table 31: Dynamic Reconfiguration Port (DRP) in the GTP_DUAL Tile Switching Characteristics
Symbol
FGTPDRPCLK

Description
GTPDRPCLK maximum frequency

Speed Grade -3
200

-2
175

-1
150

Units
MHz

Table 32: GTP_DUAL Tile Reference Clock Switching Characteristics
Symbol
FGCLK TRCLK TFCLK TDCREF TGJTT TLOCK TPHASE

Description
Reference clock frequency range(1) Reference clock rise time Reference clock fall time Reference clock duty cycle(2) peak-peak (3) CLK

Conditions

All Speed Grades Min
60 200 200 40 50

Typ

Max
350 400 400 60 40 1 200

Units
MHz ps ps % ps ms ?s

20% – 80% 80% – 20% CLK CLK Initial PLL lock Lock to data after PLL has locked to the reference clock

Reference clock total jitter,

Clock recovery frequency acquisition time Clock recovery phase acquisition time

Notes: 1. The clock from the GTP_DUAL differential clock pin pair can be used for all serial bit rates. GREFCLK can be used for serial bit rates up to 1 Gb/s. 2. For reference clock rates above 325 MHz, a duty cycle of 45% to 55% must be maintained. 3. Measured at the package pin. GTP_DUAL jitter characteristics measured using a clock with specification TGJTT.
X-Ref Target - Figure 5

TRCLK
80%

20%

TFCLK
ds202_05_100506

Figure 5: Reference Clock Timing Parameters

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 33: GTP_DUAL Tile User Clock Switching Characteristics(1)
Symbol
FTXOUT FRXREC TRX TRX2 TTX TTX2

Description
TXOUTCLK maximum frequency RXRECCLK maximum frequency RXUSRCLK maximum frequency RXUSRCLK2 maximum frequency

Conditions

Speed Grade -3
375 375 375

-2
375 375 375 350 187.5 375 350 187.5

-1
320 320 320 320 160 320 320 160

Units
MHz MHz MHz MHz MHz MHz MHz MHz

RXDATAWIDTH = 0 RXDATAWIDTH = 1

350 187.5 375

TXUSRCLK maximum frequency TXUSRCLK2 maximum frequency TXDATAWIDTH = 0 TXDATAWIDTH = 1

350 187.5

Notes: 1. Clocking must be implemented as described in UG196: Virtex-5 FPGA RocketIO GTP Transceiver User Guide

Table 34: GTP_DUAL Tile Transmitter Switching Characteristics
Symbol
FGTPTX TRTX TFTX TLLSKEW VTXOOBVDPP TTXOOBTRANS TJ3.75 DJ3.75 TJ3.2 DJ3.2 TJ2.5 DJ2.5 TJ2.0 DJ2.0 TJ1.25 DJ1.25 TJ1.00 DJ1.00 TJ500 DJ500 TJ100 DJ100 Serial data rate range TX Rise time TX Fall time TX lane-to-lane skew(1)

Description

Min
0.1

Typ

Max
FGTPMAX

Units
Gb/s ps ps

140 120 855 20 40 3.75 Gb/s Jitter(2) 3.20 Gb/s Jitter(2) 2.50 Gb/s Jitter(2) 2.00 Gb/s Jitter(2) 1.25 Gb/s Jitter(2) 1.00 Gb/s Jitter(2) 500 Mb/s Jitter(2) 100 Mb/s Jitter(2) 0.35 0.19 0.35 0.19 0.30 0.14 0.30 0.14 0.20 0.10 0.20 0.10 0.10 0.04 0.02 0.01

ps mV ns UI UI UI UI UI UI UI UI UI UI UI UI UI UI UI UI

Electrical idle amplitude Electrical idle transition time Total Jitter(2) Jitter(2) Jitter(2) Jitter(2) Jitter(2) Jitter(2) Jitter(2) Jitter(2)

Deterministic Total

Deterministic Total

Deterministic Total

Deterministic Total

Deterministic Total

Deterministic Total

Deterministic Total

Deterministic

Notes: 1. Using same REFCLK input with TXENPMAPHASEALIGN enabled for up to four consecutive GTP_DUAL sites. 2. Using PLL_DIVSEL_FB = 2, INTDATAWIDTH = 1. 3. All jitter values are based on a Bit-Error Ratio of 1e–12.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 35: GTP_DUAL Tile Receiver Switching Characteristics
Symbol
FGTPRX RXOOBVDPP RXSST RXRL Serial data rate OOB detect threshold peak-to-peak Receiver spread-spectrum tracking(1) Run length (CID)

Description
RX oversampler not enabled RX oversampler enabled OOBDETECT_THRESHOLD = 100 Modulated @ 33 KHz Internal AC capacitor bypassed CDR loop disabled with PLL_RXDIVSEL_OUT = 1(2) 2nd-order

Min
0.5 0.1 60 –5000

Typ

Max
FGTPMAX 0.5

Units
Gb/s Gb/s mV ppm UI ppm ppm ppm ppm

105

165 0 150

–200 –200 –100 –1000

200 200 100 1000

RXPPMTOL

Data/REFCLK PPM offset tolerance

CDR 2nd-order loop disabled with PLL_RXDIVSEL_OUT = 2(2) CDR 2nd-order loop disabled with PLL_RXDIVSEL_OUT = 4(2) CDR 2nd-order loop enabled

SJ Jitter Tolerance
JT_SJ3.75 JT_SJ3.2 JT_SJ2.50 JT_SJ2.00 JT_SJ1.00 JT_SJ500 JT_SJ500 JT_SJ100 Sinusoidal Jitter(3) Sinusoidal Jitter(3) Sinusoidal Jitter(3) Sinusoidal Jitter(3) Sinusoidal Jitter(3) Sinusoidal Jitter(3) Sinusoidal Jitter(3) Sinusoidal Jitter(3)( 3.75 Gb/s 3.20 Gb/s 2.50 Gb/s 2.00 Gb/s 1.00 Gb/s 500 Mb/s 500 Mb/s OS 100 Mb/s OS 0.30 0.40 0.40 0.40 0.30 0.30 0.30 0.30 UI UI UI UI UI UI UI UI

SJ Jitter Tolerance with Stressed Eye
JT_TJSE3.2 JT_SJSE3.2
Notes:

Total Jitter with Stressed Eye(4) Sinusoidal Jitter with Stressed Eye(4)

3.20 Gb/s 3.20 Gb/s

0.87 0.30

UI UI

1. 2. 3. 4. 5.

Using PLL_RXDIVSEL_OUT = 1 only. CDR 1st-order step size set to 2. Using 80 MHz sinusoidal jitter only in the absence of deterministic and random jitter. Stimulus signal includes 0.4UI of DJ and 0.17UI of RJ. RX equalizer is enabled. All jitter values are based on a Bit Error Ratio of 1e–12.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

GTX_DUAL Tile Specifications
GTX_DUAL Tile DC Characteristics
Table 36: Absolute Maximum Ratings for GTX_DUAL Tiles
Symbol
MGTAVCCPLL MGTAVTTTX MGTAVTTRX MGTAVCC MGTAVTTRXC

Description
Analog supply voltage for the GTX_DUAL shared PLL relative to GND Analog supply voltage for the GTX_DUAL transmitters relative to GND Analog supply voltage for the GTX_DUAL receivers relative to GND Analog supply voltage for the GTX_DUAL common circuits relative to GND Analog supply voltage for the resistor calibration circuit of the GTX_DUAL column –0.5 to 1.1 –0.5 to 1.32 –0.5 to 1.32 –0.5 to 1.1 –0.5 to 1.32

Units
V V V V V

Notes: 1. Stresses beyond those listed under Absolute Maximum Ratings might cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those listed under Operating Conditions is not implied. Exposure to Absolute Maximum Ratings conditions for extended periods of time might affect device reliability.

Table 37: Recommended Operating Conditions for GTX_DUAL Tiles(1)(2)
Symbol
MGTAVCCPLL(1) MGTAVTTTX(1) MGTAVTTRX(1) MGTAVCC(1) MGTAVTTRXC(1)

Description
Analog supply voltage for the GTX_DUAL shared PLL relative to GND Analog supply voltage for the GTX_DUAL transmitters relative to GND Analog supply voltage for the GTX_DUAL receivers relative to GND Analog supply voltage for the GTX_DUAL common circuits relative to GND Analog supply voltage for the resistor calibration circuit of the GTX_DUAL column

Min
0.95 1.14 1.14 0.95 1.14

Max
1.05 1.26 1.26 1.05 1.26

Units
V V V V V

Notes: 1. Each voltage listed requires the filter circuit described in UG198: Virtex-5 FPGA RocketIO GTX Transceiver User Guide. 2. Voltages are specified for the temperature range of TJ = –40°C to +100°C.

Table 38: DC Characteristics Over Recommended Operating Conditions for GTX_DUAL Tiles(1)
Symbol
IMGTAVTTTX IMGTAVCCPLL IMGTAVTTRXC IMGTAVTTRX IMGTAVCC MGTRREF

Description
GTX_DUAL tile transmitter termination supply current(2) GTX_DUAL tile shared PLL supply current GTX_DUAL tile resistor termination calibration supply current GTX_DUAL tile receiver termination supply current(3) GTX_DUAL tile internal analog supply current Precision reference resistor for internal calibration termination

Min

Typ
43.3 38.0 0.1 40.3 80.5

Max
86.3 99.4 0.5 56.5 179.5

Units
mA mA mA mA mA Ω

59.0 ± 1% tolerance

Notes: 1. Typical values are specified at nominal voltage, 25°C, with a 3.2 Gb/s line rate. 2. ICC numbers are given per GTX_DUAL tile with both GTX transceivers operating with default settings. 3. AC coupled TX/RX link. 4. Values for currents other than the values specified in this table can be obtained by using the XPOWER Estimator (XPE) or XPOWER Analyzer (XPA) tools.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 39: GTX_DUAL Tile Quiescent Supply Current
Symbol
IAVTTTXQ IAVCCPLLQ IAVTTRXQ IAVCCQ

Description
Quiescent MGTAVTTTX (transmitter termination) supply current Quiescent MGTAVCCPLL (PLL) supply current Quiescent MGTAVTTRX (receiver termination) supply current. Includes MGTAVTTRXCQ. Quiescent MGTAVCC (analog) supply current

Typ(1)
8.2 0.8 1.2 9.0

Max
21.6 4.8 12.0 50.4

Units
mA mA mA mA

Notes: 1. Typical values are specified at nominal voltage, 25°C. 2. Device powered and unconfigured. 3. Currents for conditions other than values specified in this table can be obtained by using the XPOWER Estimator (XPE) or XPOWER Analyzer (XPA) tools. 4. GTX_DUAL tile quiescent supply current for an entire device can be calculated by multiplying the values in this table by the number of available GTX_DUAL tiles in the target TXT or FXT device.

GTX_DUAL Tile DC Input and Output Levels
Table 40 summarizes the DC output specifications of the GTX_DUAL tiles in Virtex-5 FPGAs. Figure 6 shows the singleended output voltage swing. Figure 7 shows the peak-to-peak differential output voltage. Consult UG198:Virtex-5 FPGA RocketIO GTX Transceiver User Guide for further details. Table 40: GTX_DUAL Tile DC Specifications
Symbol
DVPPIN VIN VCMIN DVPPOUT VSEOUT VCMOUT RIN ROUT TOSKEW CEXT

DC Parameter
Differential peak-to-peak input voltage Absolute input voltage Common mode input voltage

Conditions
External AC coupled ≤ 4.25 Gb/s External AC coupled > 4.25 Gb/s DC coupled MGTAVTTRX = 1.2V DC coupled MGTAVTTRX = 1.2V

Min
125 125 –400

Typ

Max
1800 1800 MGTAVTTRX +400 up to 1320

Units
mV mV mV mV

800 1400 700 1200 – DVPPOUT/2 85 85 100 100 2 120 120 8 200

Differential peak-to-peak output TXBUFDIFFCTRL = 111 voltage (1) Single-ended output voltage swing (1) Common mode output voltage Differential input resistance Differential output resistance Transmitter output skew Recommended external AC coupling capacitor(2) 75 TXBUFDIFFCTRL = 111 Equation based MGTAVTTTX = 1.2V

mV mV mV Ω Ω ps nF

100

Notes: 1. The output swing and preemphasis levels are programmable using the attributes discussed in UG198:Virtex-5 FPGA RocketIO GTX Transceiver User Guide and can result in values lower than reported in this table. 2. Values outside of this range can be used as appropriate to conform to specific protocols and standards.
X-Ref Target - Figure 6

+V

P VSEOUT
ds202_01_051607

N 0
Figure 6: Single-Ended Output Voltage Swing

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

X-Ref Target - Figure 7

+V

0

DVPPOUT DVPPIN

–V

P–N
ds202_02_051607

Figure 7: Peak-to-Peak Differential Output Voltage Table 41 summarizes the DC specifications of the clock input of the GTX_DUAL tile. Figure 8 shows the single-ended input voltage swing. Figure 9 shows the peak-to-peak differential clock input voltage swing. Consult UG198: Virtex-5 FPGA RocketIO GTX Transceiver User Guide for further details. Table 41: GTX_DUAL Tile Clock DC Input Level Specification(1)
Symbol
VIDIFF VISE RIN CEXT

DC Parameter
Differential peak-to-peak input voltage Single-ended input voltage Differential input resistance Required external AC coupling capacitor

Conditions

Min
210 105 90

Typ
800 400 105 100

Max
2000 750 130

Units
mV mV Ω nF

Notes: 1. VMIN = 0V and VMAX = 1200mV
X-Ref Target - Figure 8

+V

P

VISE
N

0
Figure 8: Single-Ended Clock Input Voltage Swing Peak-to-Peak
X-Ref Target - Figure 9

ds202_03_052708

+V

P–N

0

VIDIFF

–V
ds202_04_052708

Figure 9: Differential Clock Input Voltage Swing Peak-to-Peak

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

GTX_DUAL Tile Switching Characteristics
Consult UG198:Virtex-5 FPGA RocketIO GTX Transceiver User Guide for further information. Table 42: GTX_DUAL Tile Performance
Symbol
FGTXMAX FGPLLMAX FGPLLMIN

Description
Maximum GTX transceiver data rate Maximum PLL frequency Minimum PLL frequency

Speed Grade -3
6.5 3.25 1.5

-2
6.5 3.25 1.5

-1
4.25 3.25 1.5

Units
Gb/s GHz GHz

Table 43: Dynamic Reconfiguration Port (DRP) in the GTX_DUAL Tile Switching Characteristics
Symbol
FGTXDRPCLK

Description
GTXDRPCLK maximum frequency

Speed Grade -3
200

-2
175

-1
150

Units
MHz

Table 44: GTX_DUAL Tile Reference Clock Switching Characteristics
Symbol
FGCLK TRCLK TFCLK TDCREF TGJTT TLOCK TPHASE
Notes:

Description
Reference clock frequency range(1) Reference clock rise time Reference clock fall time Reference clock duty cycle Reference clock total jitter
(2)(3)

Conditions
CLK 20% – 80% 80% – 20% CLK At 100 KHz At 1 MHz

All Speed Grades Min
60 200 200 40 50 –145 –150 0.25 1 200 60

Typ

Max
650

Units
MHz ps ps % dBc/Hz dBc/Hz ms ?s

Clock recovery frequency acquisition time Clock recovery phase acquisition time

Initial PLL lock Lock to data after PLL has locked to the reference clock

1. 2. 3.

GREFCLK can be used for serial bit rates up to 1 Gb/s; however, Jitter Specifications are not guaranteed when using GREFCLK. GTX_DUAL jitter characteristics measured using a clock with specification TGJTT. A reference clock with higher phase noise can be used with link margin trade off. The selection of the reference clock is application dependent. This parameter describes the quality of the reference clock used during transceiver jitter characterization - see Table 46 and Table 47.

X-Ref Target - Figure 10

TRCLK
80%

20%

TFCLK
ds202_05_100506

Figure 10: Reference Clock Timing Parameters

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 45: GTX_DUAL Tile User Clock Switching Characteristics(1)
Symbol
FTXOUT

Description
TXOUTCLK maximum frequency

Conditions
Internal 20-bit data path Internal 16-bit data path

Device
FXT TXT FXT TXT FXT TXT

Speed Grade -3
325 406.25 406.25 406.25 375 406.25 203.125

-2
325 325 406.25 406.25 406.25 406.25 406.25 406.25 312.5 390.625 203.125 312.5 265.625 203.125 406.25 406.25 312.5 390.625 203.125 312.5 265.625 203.125

-1
212.5 212.5 265.625 265.625 265.625 265.625 265.625 265.625 235.625 265.625 132.813 235.625 265.625 132.813 265.625 265.625 235.625 265.625 132.813 235.625 265.625 132.813

Units
MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz

FRXREC TRX TRX2

RXRECCLK maximum frequency RXUSRCLK maximum frequency RXUSRCLK2 maximum frequency 2 byte or 4 byte interface 1 byte interface 2 byte interface 4 byte interface 1 byte interface 2 byte interface 4 byte interface

FXT TXT FXT

TXT

-

TTX TTX2

TXUSRCLK maximum frequency TXUSRCLK2 maximum frequency

2 byte or 4 byte interface 1 byte interface 2 byte interface 4 byte interface 1 byte interface 2 byte interface 4 byte interface

FXT TXT FXT

406.25 375 406.25 203.125

TXT

-

Notes:
1. Clocking must be implemented as described in UG198: Virtex-5 FPGA RocketIO GTX Transceiver User Guide.

Table 46: GTX_DUAL Tile Transmitter Switching Characteristics
Symbol
FGTXTX TRTX TFTX TLLSKEW VTXOOBVDPP TTXOOBTRANSITION TJ6.5 DJ6.5 TJ5.0 DJ5.0 TJ4.25 DJ4.25 TJ3.75 DJ3.75 TX Rise time TX Fall time TX lane-to-lane skew(1) Electrical idle amplitude Electrical idle transition time Total Jitter(2) 6.5 Gb/s 5.0 Gb/s Jitter(2) 4.25 Gb/s 3.75 Gb/s Jitter(2) Deterministic Jitter(2) Total Jitter(2) Deterministic Total Total Jitter(2) Jitter(2)

Description
Serial data rate range

Condition

Min
0.15

Typ
120 120

Max
FGTXMAX

Units
Gb/s ps ps

20%–80% 80%–20%

350 15 75 0.33 0.17 0.33 0.15 0.33 0.14 0.34 0.16

ps mV ns UI UI UI UI UI UI UI UI

Deterministic Jitter(2) Deterministic

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Table 46: GTX_DUAL Tile Transmitter Switching Characteristics (Cont’d)
Symbol
TJ3.2 DJ3.2 TJ3.2L DJ3.2L TJ2.5 DJ2.5 TJ1.25 DJ1.25 TJ750 DJ750 TJ150 DJ150 Total Total Total Total Total Total Jitter(2) Jitter(2) 3.2 Gb/s(3) Jitter(2) Jitter(2) Jitter(2) 1.25 Gb/s 750 Mb/s 150 Mb/s Jitter(2) Jitter(2)(4) Jitter(2)(4) Jitter(2)(4) Deterministic

Description

Condition 3.2 Gb/s

Min

Typ

Max
0.20 0.10 0.36 0.16 0.20 0.08 0.15 0.06 0.10 0.03 0.02 0.01

Units
UI UI UI UI UI UI UI UI UI UI UI UI

Deterministic Jitter(2) 2.5 Gb/s Deterministic

Deterministic Jitter(2) Deterministic

Deterministic Jitter(2)(4)

Notes: 1. Using same REFCLK input with TXENPMAPHASEALIGN enabled for up to four consecutive GTX_DUAL sites. 2. Using PLL_DIVSEL_FB = 2, INTDATAWIDTH = 1. These values are NOT intended for protocol specific compliance determinations. 3. PLL frequency at 1.6 GHz and OUTDIV = 1. 4. GREFCLK can be used for serial data rates up to 1.0 Gb/s, but performance is not guaranteed.

Table 47: GTX_DUAL Tile Receiver Switching Characteristics
Symbol
FGTXRX TRXELECIDLE RXOOBVDPP RXSST RXRL RXPPMTOL Serial data rate TIme for RXELECIDLE to respond to loss or restoration of data OOB detect threshold peak-to-peak Receiver spread-spectrum tracking(1) Run length (CID) Data/REFCLK PPM offset tolerance

Description
RX oversampler not enabled RX oversampler enabled OOBDETECT_THRESHOLD = 110 OOBDETECT_THRESHOLD = 110 Modulated @ 33 KHz Internal AC capacitor bypassed CDR CDR 2nd-order 2nd-order loop disabled loop enabled

Min
0.75 0.15

Typ

Max
FGTXMAX 0.75 75

Units
Gb/s Gb/s ns

55 –5000

135 0 512

mV ppm UI ppm ppm UI UI UI UI UI UI UI UI UI UI UI

–200 –2000 0.44 0.44 0.44 0.44 0.45 0.45 0.50 0.50 0.57 0.57 0.69

200 2000

SJ Jitter Tolerance(2)
JT_SJ6.5 JT_SJ5.0 JT_SJ4.25 JT_SJ3.75 JT_SJ3.2 JT_SJ3.2L JT_SJ2.5 JT_SJ1.25 JT_SJ750 JT_SJ150 Sinusoidal Jitter(3) Sinusoidal Sinusoidal Jitter(3) Jitter(3) 6.5 Gb/s 5.0 Gb/s 4.25 Gb/s 3.75 Gb/s 3.2 Gb/s 3.2 Gb/s(4) 2.5 Gb/s 1.25 Gb/s 750 Mb/s 150 Mb/s 4.25 Gb/s

Sinusoidal Jitter(3) Sinusoidal Jitter(3) Sinusoidal Sinusoidal Jitter(3) Jitter(3)

Sinusoidal Jitter(3) Sinusoidal Jitter(3)(5) Sinusoidal Jitter(3)(5)

SJ Jitter Tolerance with Stressed
JT_TJSE4.25

Eye(2)

Total Jitter with Stressed Eye(6)

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Table 47: GTX_DUAL Tile Receiver Switching Characteristics (Cont’d)
Symbol
JT_SJSE4.25 Sinusoidal Jitter with Stressed Eye(6)

Description
4.25 Gb/s

Min
0.1

Typ

Max

Units
UI

Notes: 1. Using PLL_RXDIVSEL_OUT = 1, 2, and 4. 2. All jitter values are based on a Bit Error Ratio of 1e–12. 3. Using 80 MHz sinusoidal jitter only in the absence of deterministic and random jitter. 4. PLL frequency at 1.6 GHz and OUTDIV = 1. 5. GREFCLK can be used for serial data rates up to 1.0 Gb/s, but performance is not guaranteed. 6. Composite jitter with RX equalizer enabled. DFE disabled.

CRC Block Switching Characteristics
Table 48: CRC Block Switching Characteristics
Symbol
FCRC CRCCLK maximum frequency

Description

Speed Grade -3
325

-2
325

-1
270

Units
MHz

Ethernet MAC Switching Characteristics
Consult UG194: Virtex-5 FPGA Tri-mode Ethernet Media Access Controller User Guide for further information. Table 49: Maximum Ethernet MAC Performance
Symbol
FTEMACCLIENT

Description
Client interface maximum frequency

Conditions
10 Mb/s – 8-bit width 100 Mb/s – 8-bit width 1000 Mb/s – 8-bit width 2000 Mb/s – 16-bit width

Speed Grade -3
1.25 12.5 125 125 2.5 25 125 250

-2
1.25 12.5 125 125 2.5 25 125 250

-1
1.25 12.5 125 125 2.5 25 125 250

Units
MHz MHz MHz MHz MHz MHz MHz MHz

FTEMACPHY

Physical interface maximum frequency

10 Mb/s – 4-bit width 100 Mb/s – 4-bit width 1000 Mb/s – 8-bit width 2000 Mb/s – 8-bit width

Endpoint Block for PCI Express Designs Switching Characteristics
Consult UG197: Virtex-5 FPGA Integrated Endpoint Block for PCI Express Designs User Guide for further information. Table 50: Maximum Performance for PCI Express Designs
Symbol
FPCIECORE FPCIEUSER

Description
Core clock maximum frequency User clock maximum frequency

Speed Grade -3
250 250

-2
250 250

-1
250 250

Units
MHz MHz

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

System Monitor Analog-to-Digital Converter Specification
Table 51: Analog-to-Digital Specifications
Parameter Symbol Comments/Conditions Min Typ Max Units
AVDD = 2.5V ± 2%, VREFP = 2.5V, VREFN = 0V, ADCCLK = 5.2 MHz, TA = TMIN to TMAX, Typical values at TA=+25°C DC Accuracy: All external input channels such as VP/VN and VAUXP[15:0]/VAUXN[15:0], Unipolar Mode, and Common Mode = 0V Resolution Integral Nonlinearity Differential Nonlinearity Unipolar Offset Error(1) Bipolar Offset Error(1) Gain Error(1) Bipolar Gain Error(1) Total Unadjusted Error (Uncalibrated) Total Unadjusted Error (Calibrated) Calibrated Gain Temperature Coefficient DC Common-Mode Reject Conversion Rate(2) Conversion Time - Continuous Conversion Time - Event T/H Acquisition Time DRP Clock Frequency ADC Clock Frequency CLK Duty cycle Analog Inputs(3) Dedicated Analog Inputs Input Voltage Range VP - VN Unipolar Operation Differential Inputs Unipolar Common Mode Range (FS input) Differential Common Mode Range (FS input) Bandwidth Auxiliary Analog Inputs Input Voltage Range VAUXP[0] /VAUXN[0] to VAUXP[15] /VAUXN[15] Unipolar Operation Differential Operation Unipolar Common Mode Range (FS input) Differential Common Mode Range (FS input) Bandwidth Input Leakage Current Input Capacitance On-chip Supply Monitor Error On-chip Temperature Monitor Error VCCINT and VCCAUX with calibration enabled –40°C to +125°C with calibration enabled A/D not converting, ADCCLK stopped 0 –0.25 0 +0.3 10 ±1.0 10 ±1.0 ±4 0 –0.25 0 +0.3 20 1 +0.25 +0.5 +0.7 kHz ?A pF % Reading °C 1 +0.25 +0.5 +0.7 MHz Volts Volts tCONV tCONV tACQ DCLK ADCCLK Number of CLK cycles Number of CLK cycles Number of CLK cycles DRP clock frequency Derived from DCLK 4 8 1 40 250 5.2 60 MHz MHz % 26 32 21 CMRRDC TUE TUE INL DNL No missing codes (TMIN to TMAX) Guaranteed Monotonic Uncalibrated Uncalibrated measured in bipolar mode Uncalibrated Uncalibrated measured in bipolar mode Deviation from ideal transfer function. VREFP – VREFN = 2.5V Deviation from ideal transfer function. VREFP – VREFN = 2.5V Variation of FS code with temperature VN = VCM = 0.5V ± 0.5V, VP – VN = 100mV ±2 ±2 ±0.2 ±0.2 ±10 ±1 ±0.01 70 ±2 10 ±2 ±0.9 ±30 ±30 ±2 ±2 Bits LSBs LSBs LSBs LSBs % % LSBs LSBs LSB/°C dB

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Table 51: Analog-to-Digital Specifications (Cont’d)
Parameter
External Reference Inputs(4) Positive Reference Input Voltage Range Negative Reference Input Voltage Range Input current Power Requirements Analog Power Supply Analog Supply Current AVDD AIDD Measured Relative to AVSS ADCCLK = 5.2 MHz 2.45 5 2.5 2.55 8 Volts mA VREFP VREFN IREF Measured Relative to VREFN Measured Relative to AGND ADCCLK = 5.2 MHz 2.45 –50 2.5 0 2.55 100 100 Volts mV ?A

Symbol

Comments/Conditions

Min

Typ

Max

Units

Notes: 1. Offset and gain errors are removed by enabling the System Monitor automatic gain calibration feature. See UG192: Virtex-5 FPGA System Monitor User Guide. 2. See "System Monitor Timing" in UG192: Virtex-5 FPGA System Monitor User Guide. 3. See "Analog Inputs" in UG192: Virtex-5 FPGA System Monitor User Guide for a detailed description. 4. Any variation in the reference voltage from the nominal VREFP = 2.5V and VREFN = 0V will result is a deviation from the ideal transfer function.This also impacts the accuracy of the internal sensor measurements (i.e., temperature and power supply). However, for external ratiometric type applications allowing the supply voltage and reference to vary by ±2% is permitted.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Performance Characteristics
This section provides the performance characteristics of some common functions and designs implemented in Virtex-5 devices. The numbers reported here are worst-case values; they have all been fully characterized. These values are subject to the same guidelines as the Switching Characteristics, page 30. Table 52 shows internal (register-to-register) performance. Table 52: Register-to-Register Performance
Register-to-Register (with I/O Delays) Description -3
Basic Functions 16:1 Multiplexer 32:1 Multiplexer 64:1 Multiplexer 9 x 9 Logic Multiplier with 4 pipe stages 9 x 9 Logic Multiplier with 5 pipe stages 16-bit Adder 32-bit Adder 64-bit Adder Register to LUT to Register 16-bit Counter 32-bit Counter 64-bit Counter Memory Cascaded block RAM (64K) Block RAM Pipelined Single-Port 512 x 36 bits Single-Port 4096 x 4 bits Dual-Port A: 4096 x 4 bits and B: 1024 x 18 bits Distributed RAM Single-Port 16 x 8 Single-Port 32 x 8 Single-Port 64 x 8 Dual-Port 16 x 8 Shift Register Chain 16-bit 32-bit 64-bit 550 550 550 500 500 500 450 450 438 MHz MHz MHz 550 550 550 500 500 500 450 450 450 MHz MHz MHz MHz 550 550 550 500 500 500 450 450 450 MHz MHz MHz 500 450 400 MHz 550 550 511 468 550 550 550 423 550 550 550 428 500 500 467 438 500 500 500 377 500 500 500 381 450 450 407 428 428 450 447 323 450 450 450 333 MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz MHz

Speed Grade -2 -1

Units

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 52: Register-to-Register Performance (Cont’d)
Register-to-Register (with I/O Delays) Description -3
Dedicated Arithmetic Logic DSP48E Quad 12-bit Adder/Subtracter DSP48E Dual 24-bit Adder/Subtracter DSP48E 48-bit Adder/Subtracter DSP48E 48-bit Counter DSP48E 48-bit Comparator DSP48E 25 x 18 bit Pipelined Multiplier DSP48E Direct 4-tap FIR Filter Pipelined DSP48E Systolic n-tap FIR Filter Pipelined
Notes: 1. Device used is the XC5VLX50T- FF1136

Speed Grade -2 -1

Units

550 550 550 550 550 550 510 550

500 500 500 500 500 500 458 500

450 450 450 450 450 450 397 450

MHz MHz MHz MHz MHz MHz MHz MHz

Table 53: Interface Performances
Description
Networking Applications SFI-4.1 (SDR LVDS Interface)(1) SPI-4.2 (DDR LVDS Memory Interfaces DDR(3) DDR2(4) QDR II SRAM(5) II(6) 200 MHz 333 MHz 300 MHz 333 MHz 200 MHz 300 MHz 300 MHz 300 MHz 200 MHz 267 MHz 250 MHz 250 MHz Interface)(2) 710 MHz 1.25 Gb/s 710 MHz 1.25 Gb/s 645 MHz 1.0 Gb/s

Speed Grade -3 -2 -1

RLDRAM

Notes: 1. Performance defined using design implementation described in application note XAPP856: SFI-4.1 16-Channel SDR Interface with Bus Alignment 2. Performance defined using design implementation described in application note XAPP860: 16-Channel, DDR LVDS Interface with Real-time Window Monitoring 3. Performance defined using design implementation described in application note XAPP851: DDR SDRAM Controller 4. Performance defined using design implementation described in application note XAPP858: High-Performance DDR2 SDRAM Interface Data Capture 5. Performance defined using design implementation described in application note XAPP853: QDRII SRAM Interface 6. Performance defined using design implementation described in application note XAPP852: Synthesizable RLDRAM II Controller

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Switching Characteristics
All values represented in this data sheet are based on speed specification version 1.62. Switching characteristics are specified on a per-speed-grade basis and can be designated as Advance, Preliminary, or Production. Each designation is defined as follows: Advance These specifications are based on simulations only and are typically available soon after device design specifications are frozen. Although speed grades with this designation are considered relatively stable and conservative, some underreporting might still occur. Preliminary These specifications are based on complete ES (engineering sample) silicon characterization. Devices and speed grades with this designation are intended to give a better indication of the expected performance of production silicon. The probability of under-reporting delays is greatly reduced as compared to Advance data. Production These specifications are released once enough production silicon of a particular device family member has been characterized to provide full correlation between specifications and devices over numerous production lots. There is no under-reporting of delays, and customers receive formal notification of any subsequent changes. Typically, the slowest speed grades transition to Production before faster speed grades. All specifications are always representative of worst-case supply voltage and junction temperature conditions. Since individual family members are produced at different times, the migration from one category to another depends completely on the status of the fabrication process for each device. Table 54 correlates the current status of each Virtex-5 device on a per speed grade basis. Table 54: Virtex-5 Device Speed Grade Designations
Device
XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade Designations Advance Preliminary Production
-2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -2, -1 -2, -1 -2, -1 -2, -1 -3, -2, -1 -3, -2, -1 -2, -1 -2, -1 -2, -1 -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -3, -2, -1 -2, -1

Testing of Switching Characteristics
All devices are 100% functionally tested. Internal timing parameters are derived from measuring internal test patterns. Listed below are representative values. For more specific, more precise, and worst-case guaranteed data, use the values reported by the static timing analyzer and back-annotate to the simulation net list. Unless otherwise noted, values apply to all Virtex-5 devices.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Production Silicon and ISE Software Status
In some cases, a particular family member (and speed grade) is released to production before a speed specification is released with the correct label (Advance, Preliminary, Production). Any labeling discrepancies are corrected in subsequent speed specification releases. Table 55 lists the production released Virtex-5 family member, speed grade, and the minimum corresponding supported speed specification version and ISE? software revisions. The ISE software and speed specifications listed are the minimum releases required for production. All subsequent releases of software and speed specifications are valid. Table 55: Virtex-5 Device Production Software and Speed Specification Release
Device
XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T
Notes:

Speed Grade Designations -3
N/A

-2

-1

ISE 10.1 SP2 v1.61 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 10.1 SP2 v1.61 ISE 10.1 SP2 v1.61

N/A N/A N/A N/A

ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58 ISE 9.2i SP4 v1.58

N/A N/A N/A N/A

ISE 9.2i SP4 v1.58 ISE 10.1 SP3 v1.63 ISE 10.1 SP3 v1.63 ISE 10.1 SP3 v1.63 ISE 10.1 SP3 v1.63 ISE 10.1 SP3 v1.63 ISE 10.1 SP3 v1.63 ISE 10.1 SP3 v1.63

N/A

ISE 10.1 SP3 v1.63

1.

Blank entries indicate a device and/or speed grade in advance or preliminary status.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

IOB Pad Input/Output/3-State Switching Characteristics
Table 56 summarizes the values of standard-specific data input delay adjustments, output delays terminating at pads (based on standard) and 3-state delays. TIOPI is described as the delay from IOB pad through the input buffer to the I-pin of an IOB pad. The delay varies depending on the capability of the SelectIO input buffer. TIOOP is described as the delay from the O pin to the IOB pad through the output buffer of an IOB pad. The delay varies depending on the capability of the SelectIO output buffer. Table 56: IOB Switching Characteristics
TIOPI I/O Standard -3
LVDS_25 LVDSEXT_25 HT_25 BLVDS_25 RSDS_25 (point to point) ULVDS_25 PCI33_3 PCI66_3 PCI-X GTL GTLP HSTL_I HSTL_II HSTL_III HSTL_IV HSTL_I _18 HSTL_II _18 HSTL_III _18 HSTL_IV_18 SSTL2_I SSTL2_II LVTTL, Slow, 2 mA LVTTL, Slow, 4 mA LVTTL, Slow, 6 mA LVTTL, Slow, 8 mA LVTTL, Slow, 12 mA LVTTL, Slow, 16 mA LVTTL, Slow, 24 mA 0.80 1.01 0.80 0.80 0.80 0.80 0.62 0.62 0.62 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.62 0.62 0.62 0.62 0.62 0.62 0.62

TIOTP is described as the delay from the T pin to the IOB pad through the output buffer of an IOB pad, when 3-state is disabled. The delay varies depending on the SelectIO capability of the output buffer. Table 57 summarizes the value of TIOTPHZ. TIOTPHZ is described as the delay from the T pin to the IOB pad through the output buffer of an IOB pad, when 3-state is enabled (i.e., a high impedance state).

TIOOP Speed Grade -1
1.06 1.30 1.06 1.06 1.06 1.06 0.82 0.82 0.82 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 0.82 0.82 0.82 0.82 0.82 0.82 0.82

TIOTP Speed Grade -1
1.44 1.49 1.40 1.58 1.44 1.41 2.38 2.38 1.80 1.86 1.93 1.79 1.74 1.85 1.83 1.77 1.72 1.85 1.81 1.87 1.76 5.01 3.41 3.29 2.61 2.46 2.34 2.38

Speed Grade -2
0.90 1.16 0.90 0.90 0.90 0.90 0.70 0.70 0.70 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.70 0.70 0.70 0.70 0.70 0.70 0.70

Units -1
1.44 1.49 1.40 1.58 1.44 1.41 2.38 2.38 1.80 1.86 1.93 1.79 1.74 1.85 1.83 1.77 1.72 1.85 1.81 1.87 1.76 5.01 3.41 3.29 2.61 2.46 2.34 2.38 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

-3
1.13 1.17 1.10 1.24 1.13 1.10 1.85 1.85 1.40 1.47 1.51 1.42 1.39 1.44 1.44 1.40 1.36 1.45 1.41 1.48 1.40 4.10 2.87 2.66 2.09 1.94 1.84 1.87

-2
1.29 1.34 1.26 1.38 1.29 1.27 2.06 2.06 1.56 1.63 1.68 1.57 1.53 1.60 1.60 1.55 1.51 1.61 1.57 1.64 1.55 4.47 3.09 2.91 2.30 2.15 2.04 2.07

-3
1.13 1.17 1.10 1.24 1.13 1.10 1.85 1.85 1.40 1.47 1.51 1.42 1.39 1.44 1.44 1.40 1.36 1.45 1.41 1.48 1.40 4.10 2.87 2.66 2.09 1.94 1.84 1.87

-2
1.29 1.34 1.26 1.38 1.29 1.27 2.06 2.06 1.56 1.63 1.68 1.57 1.53 1.60 1.60 1.55 1.51 1.61 1.57 1.64 1.55 4.47 3.09 2.91 2.30 2.15 2.04 2.07

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Table 56: IOB Switching Characteristics (Cont’d)
TIOPI I/O Standard -3
LVTTL, Fast, 2 mA LVTTL, Fast, 4 mA LVTTL, Fast, 6 mA LVTTL, Fast, 8 mA LVTTL, Fast, 12 mA LVTTL, Fast, 16 mA LVTTL, Fast, 24 mA LVCMOS33, Slow, 2 mA LVCMOS33, Slow, 4 mA LVCMOS33, Slow, 6 mA LVCMOS33, Slow, 8 mA LVCMOS33, Slow, 12 mA LVCMOS33, Slow, 16 mA LVCMOS33, Slow, 24 mA LVCMOS33, Fast, 2 mA LVCMOS33, Fast, 4 mA LVCMOS33, Fast, 6 mA LVCMOS33, Fast, 8 mA LVCMOS33, Fast, 12 mA LVCMOS33, Fast, 16 mA LVCMOS33, Fast, 24 mA LVCMOS25, Slow, 2 mA LVCMOS25, Slow, 4 mA LVCMOS25, Slow, 6 mA LVCMOS25, Slow, 8 mA LVCMOS25, Slow, 12 mA LVCMOS25, Slow, 16 mA LVCMOS25, Slow, 24 mA LVCMOS25, Fast, 2 mA LVCMOS25, Fast, 4 mA LVCMOS25, Fast, 6 mA LVCMOS25, Fast, 8 mA LVCMOS25, Fast, 12 mA LVCMOS25, Fast, 16 mA LVCMOS25, Fast, 24 mA 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.62 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61 0.61

TIOOP Speed Grade -1
0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82 0.82

TIOTP Speed Grade -1
4.05 2.90 2.63 2.09 1.89 1.81 1.74 4.44 3.49 3.24 2.57 2.42 2.31 2.35 3.59 2.84 2.59 2.05 1.86 1.80 1.74 4.42 2.94 2.74 2.56 2.63 2.30 2.34 3.82 2.37 2.20 2.09 1.94 1.85 1.76

Speed Grade -2
0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70 0.70

Units -1
4.05 2.90 2.63 2.09 1.89 1.81 1.74 4.44 3.49 3.24 2.57 2.42 2.31 2.35 3.59 2.84 2.59 2.05 1.86 1.80 1.74 4.42 2.94 2.74 2.56 2.63 2.30 2.34 3.82 2.37 2.20 2.09 1.94 1.85 1.76 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

-3
3.32 2.32 2.10 1.65 1.47 1.41 1.36 3.63 2.82 2.61 2.06 1.95 1.86 1.87 2.94 2.27 2.06 1.61 1.45 1.40 1.35 3.67 2.37 2.19 2.05 2.10 1.84 1.83 3.14 1.89 1.74 1.66 1.52 1.43 1.40

-2
3.61 2.55 2.31 1.82 1.63 1.57 1.52 3.96 3.09 2.86 2.26 2.14 2.04 2.07 3.20 2.50 2.27 1.79 1.61 1.56 1.51 3.97 2.60 2.41 2.26 2.31 2.02 2.04 3.41 2.08 1.92 1.83 1.69 1.60 1.54

-3
3.32 2.32 2.10 1.65 1.47 1.41 1.36 3.63 2.82 2.61 2.06 1.95 1.86 1.87 2.94 2.27 2.06 1.61 1.45 1.40 1.35 3.67 2.37 2.19 2.05 2.10 1.84 1.83 3.14 1.89 1.74 1.66 1.52 1.43 1.40

-2
3.61 2.55 2.31 1.82 1.63 1.57 1.52 3.96 3.09 2.86 2.26 2.14 2.04 2.07 3.20 2.50 2.27 1.79 1.61 1.56 1.51 3.97 2.60 2.41 2.26 2.31 2.02 2.04 3.41 2.08 1.92 1.83 1.69 1.60 1.54

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 56: IOB Switching Characteristics (Cont’d)
TIOPI I/O Standard -3
LVCMOS18, Slow, 2 mA LVCMOS18, Slow, 4 mA LVCMOS18, Slow, 6 mA LVCMOS18, Slow, 8 mA LVCMOS18, Slow, 12 mA LVCMOS18, Slow, 16 mA LVCMOS18, Fast, 2 mA LVCMOS18, Fast, 4 mA LVCMOS18, Fast, 6 mA LVCMOS18, Fast, 8 mA LVCMOS18, Fast, 12 mA LVCMOS18, Fast, 16 mA LVCMOS15, Slow, 2 mA LVCMOS15, Slow, 4 mA LVCMOS15, Slow, 6 mA LVCMOS15, Slow, 8 mA LVCMOS15, Slow, 12 mA LVCMOS15, Slow, 16 mA LVCMOS15, Fast, 2 mA LVCMOS15, Fast, 4 mA LVCMOS15, Fast, 6 mA LVCMOS15, Fast, 8 mA LVCMOS15, Fast, 12 mA LVCMOS15, Fast, 16 mA LVCMOS12, Slow, 2 mA LVCMOS12, Slow, 4 mA LVCMOS12, Slow, 6 mA LVCMOS12, Slow, 8 mA LVCMOS12, Fast, 2 mA LVCMOS12, Fast, 4 mA LVCMOS12, Fast, 6 mA LVCMOS12, Fast, 8 mA LVDCI_33 LVDCI_25 LVDCI_18 LVDCI_15 0.67 0.67 0.67 0.67 0.67 0.67 0.67 0.67 0.67 0.67 0.67 0.67 0.73 0.73 0.73 0.73 0.73 0.73 0.73 0.73 0.73 0.73 0.73 0.73 0.84 0.84 0.84 0.84 0.84 0.84 0.84 0.84 0.62 0.61 0.67 0.73

TIOOP Speed Grade -1
0.89 0.89 0.89 0.89 0.89 0.89 0.89 0.89 0.89 0.89 0.89 0.89 0.98 0.98 0.98 0.98 0.98 0.98 0.98 0.98 0.98 0.98 0.98 0.98 1.14 1.14 1.14 1.14 1.14 1.14 1.14 1.14 0.82 0.82 0.89 0.98

TIOTP Speed Grade -1
5.09 3.75 2.97 2.69 2.47 2.45 4.16 2.98 2.35 2.13 1.93 1.86 4.34 2.74 2.52 2.43 2.25 2.20 3.48 2.23 2.06 2.00 1.86 1.77 4.58 2.66 2.45 2.48 3.87 2.20 2.08 1.97 1.90 1.93 1.99 2.02

Speed Grade -2
0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.83 0.83 0.83 0.83 0.83 0.83 0.83 0.83 0.83 0.83 0.83 0.83 0.96 0.96 0.96 0.96 0.96 0.96 0.96 0.96 0.70 0.70 0.76 0.83

Units -1
5.09 3.75 2.97 2.69 2.47 2.45 4.16 2.98 2.35 2.13 1.93 1.86 4.34 2.74 2.52 2.43 2.25 2.20 3.48 2.23 2.06 2.00 1.86 1.77 4.58 2.66 2.45 2.48 3.87 2.20 2.08 1.97 1.90 1.93 1.99 2.02 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

-3
4.20 3.03 2.37 2.15 1.95 1.93 3.41 2.36 1.87 1.69 1.51 1.44 3.50 2.17 1.99 1.91 1.74 1.71 2.80 1.76 1.62 1.57 1.43 1.37 3.58 2.10 2.00 1.91 3.05 1.71 1.58 1.52 1.50 1.55 1.65 1.58

-2
4.56 3.32 2.61 2.37 2.16 2.14 3.71 2.61 2.06 1.87 1.68 1.61 3.84 2.40 2.20 2.12 1.95 1.91 3.07 1.95 1.80 1.74 1.60 1.53 3.98 2.33 2.18 2.14 3.38 1.91 1.78 1.70 1.66 1.71 1.78 1.75

-3
4.20 3.03 2.37 2.15 1.95 1.93 3.41 2.36 1.87 1.69 1.51 1.44 3.50 2.17 1.99 1.91 1.74 1.71 2.80 1.76 1.62 1.57 1.43 1.37 3.58 2.10 2.00 1.91 3.05 1.71 1.58 1.52 1.50 1.55 1.65 1.58

-2
4.56 3.32 2.61 2.37 2.16 2.14 3.71 2.61 2.06 1.87 1.68 1.61 3.84 2.40 2.20 2.12 1.95 1.91 3.07 1.95 1.80 1.74 1.60 1.53 3.98 2.33 2.18 2.14 3.38 1.91 1.78 1.70 1.66 1.71 1.78 1.75

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 56: IOB Switching Characteristics (Cont’d)
TIOPI I/O Standard -3
LVDCI_DV2_25 LVDCI_DV2_18 LVDCI_DV2_15 GTL_DCI GTLP_DCI LVPECL_25 HSTL_I_12 HSTL_I_DCI HSTL_II_DCI HSTL_II_T_DCI HSTL_III_DCI HSTL_IV_DCI HSTL_I_DCI_18 HSTL_II_DCI_18 HSTL_II _T_DCI_18 HSTL_III_DCI_18 HSTL_IV_DCI_18 DIFF_HSTL_I_18 DIFF_HSTL_I_DCI_18 DIFF_HSTL_I DIFF_HSTL_I_DCI DIFF_HSTL_II_18 DIFF_HSTL_II_DCI_18 DIFF_HSTL_II DIFF_HSTL_II_DCI SSTL2_I_DCI SSTL2_II_DCI SSTL2_II_T_DCI SSTL18_I SSTL18_II SSTL18_I_DCI SSTL18_II_DCI SSTL18_II_T_DCI 0.61 0.67 0.73 0.76 0.76 0.80 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.76 0.76 0.76 0.76 0.76 0.76 0.76 0.76

TIOOP Speed Grade -1
0.82 0.89 0.98 1.00 1.00 1.06 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.00 1.00 1.00 1.00 1.00 1.00 1.00 1.00

TIOTP Speed Grade -1
1.74 1.85 1.91 1.65 1.76 1.62 1.85 1.77 1.69 1.77 1.95 1.64 1.70 1.64 1.70 1.91 1.62 1.77 1.70 1.79 1.77 1.72 1.64 1.74 1.69 1.78 1.70 1.78 1.84 1.75 1.74 1.64 1.74

Speed Grade -2
0.70 0.76 0.83 0.85 0.85 0.90 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.90 0.90 0.90 0.90 0.90 0.90 0.90 0.90 0.85 0.85 0.85 0.85 0.85 0.85 0.85 0.85

Units -1
1.74 1.85 1.91 1.65 1.76 1.62 1.85 1.77 1.69 1.77 1.95 1.64 1.70 1.64 1.70 1.91 1.62 1.77 1.70 1.79 1.77 1.72 1.64 1.74 1.69 1.78 1.70 1.78 1.84 1.75 1.74 1.64 1.74 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

-3
1.36 1.43 1.48 1.36 1.37 1.28 1.45 1.41 1.34 1.41 1.57 1.34 1.36 1.30 1.36 1.55 1.31 1.40 1.36 1.42 1.41 1.36 1.30 1.39 1.34 1.42 1.34 1.42 1.46 1.39 1.39 1.30 1.39

-2
1.51 1.60 1.65 1.47 1.52 1.42 1.61 1.56 1.48 1.56 1.72 1.46 1.50 1.43 1.50 1.69 1.44 1.55 1.50 1.57 1.56 1.51 1.43 1.53 1.48 1.56 1.48 1.56 1.61 1.53 1.53 1.44 1.53

-3
1.36 1.43 1.48 1.36 1.37 1.28 1.45 1.41 1.34 1.41 1.57 1.34 1.36 1.30 1.36 1.55 1.31 1.40 1.36 1.42 1.41 1.36 1.30 1.39 1.34 1.42 1.34 1.42 1.46 1.39 1.39 1.30 1.39

-2
1.51 1.60 1.65 1.47 1.52 1.42 1.61 1.56 1.48 1.56 1.72 1.46 1.50 1.43 1.50 1.69 1.44 1.55 1.50 1.57 1.56 1.51 1.43 1.53 1.48 1.56 1.48 1.56 1.61 1.53 1.53 1.44 1.53

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 56: IOB Switching Characteristics (Cont’d)
TIOPI I/O Standard -3
DIFF_SSTL2_I DIFF_SSTL2_I_DCI DIFF_SSTL18_I DIFF_SSTL18_I_DCI DIFF_SSTL2_II DIFF_SSTL2_II_DCI DIFF_SSTL18_II DIFF_SSTL18_II_DCI 0.80 0.80 0.80 0.80 0.80 0.80 0.80 0.80

TIOOP Speed Grade -1
1.06 1.06 1.06 1.06 1.06 1.06 1.06 1.06

TIOTP Speed Grade -1
1.87 1.78 1.84 1.74 1.76 1.70 1.75 1.64

Speed Grade -2
0.90 0.90 0.90 0.90 0.90 0.90 0.90 0.90

Units -1
1.87 1.78 1.84 1.74 1.76 1.70 1.75 1.64 ns ns ns ns ns ns ns ns

-3
1.48 1.42 1.46 1.39 1.40 1.34 1.39 1.30

-2
1.64 1.56 1.61 1.53 1.55 1.48 1.53 1.44

-3
1.48 1.42 1.46 1.39 1.40 1.34 1.39 1.30

-2
1.64 1.56 1.61 1.53 1.55 1.48 1.53 1.44

Table 57: IOB 3-state ON Output Switching Characteristics (TIOTPHZ)
Symbol
TIOTPHZ

Description
T input to Pad high-impedance

Speed Grade -3
0.88

-2
1.01

-1
1.12

Units
ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

I/O Standard Adjustment Measurement Methodology
Input Delay Measurements
Table 58 shows the test setup parameters used for measuring input delay. Table 58: Input Delay Measurement Methodology
Description
LVTTL (Low-Voltage Transistor-Transistor Logic) LVCMOS (Low-Voltage CMOS), 3.3V LVCMOS, 2.5V LVCMOS, 1.8V LVCMOS, 1.5V LVCMOS, 1.2V PCI (Peripheral Component Interconnect), 33 MHz, 3.3V PCI, 66 MHz, 3.3V PCI-X, 133 MHz, 3.3V GTL (Gunning Transceiver Logic) GTL Plus HSTL (High-Speed Transceiver Logic), Class I & II HSTL, Class III & IV HSTL, Class I & II, 1.8V HSTL, Class III & IV, 1.8V SSTL (Stub Terminated Transceiver Logic), Class I & II, 3.3V SSTL, Class I & II, 2.5V SSTL, Class I & II, 1.8V AGP-2X/AGP (Accelerated Graphics Port) LVDS (Low-Voltage Differential Signaling), 2.5V LVDSEXT (LVDS Extended Mode), 2.5V LDT (HyperTransport), 2.5V LVPECL (Low-Voltage Positive Emitter-Coupled Logic), 2.5V I/O Standard Attribute LVTTL LVCMOS33 LVCMOS25 LVCMOS18 LVCMOS15 LVCMOS12 PCI33_3 PCI66_3 PCIX GTL GTLP HSTL_I, HSTL_II HSTL_III, HSTL_IV HSTL_I_18, HSTL_II_18 HSTL_III_18, HSTL_IV_18 SSTL3_I, SSTL3_II SSTL2_I, SSTL2_II SSTL18_I, SSTL18_II AGP LVDS_25 LVDSEXT_25 LDT_25 LVPECL_25

VL (1,2)
0 0 0 0 0 0

VH (1,2)
3.0 3.3 2.5 1.8 1.5 1.2

VMEAS
(1,4,5)

VREF
(1,3,5)

1.4 1.65 1.25 0.9 0.75 0.6

– – – – – – – – –

Per PCI? Specification Per PCI Specification Per PCI-X? Specification VREF – 0.2 VREF – 0.2 VREF – 0.5 VREF – 0.5 VREF – 0.5 VREF – 0.5 VREF – 1.00 VREF – 0.75 VREF – 0.5 VREF – (0.2 xVCCO) 1.2 – 0.125 1.2 – 0.125 0.6 – 0.125 1.15 – 0.3 VREF + 0.2 VREF + 0.2 VREF + 0.5 VREF + 0.5 VREF + 0.5 VREF + 0.5 VREF + 1.00 VREF + 0.75 VREF + 0.5 VREF + (0.2 xVCCO) 1.2 + 0.125 1.2 + 0.125 0.6 + 0.125 1.15 – 0.3 VREF VREF VREF VREF VREF VREF VREF VREF VREF VREF 0(6) 0(6) 0(6) 0(6)

0.80 1.0 0.75 0.90 0.90 1.08 1.5 1.25 0.90 AGP Spec

Notes: 1. The input delay measurement methodology parameters for LVDCI are the same for LVCMOS standards of the same voltage. Input delay measurement methodology parameters for HSLVDCI are the same as for HSTL_II standards of the same voltage. Parameters for all other DCI standards are the same for the corresponding non-DCI standards. 2. Input waveform switches between VLand VH. 3. Measurements are made at typical, minimum, and maximum VREF values. Reported delays reflect worst case of these measurements. VREF values listed are typical. 4. Input voltage level from which measurement starts. 5. This is an input voltage reference that bears no relation to the VREF / VMEAS parameters found in IBIS models and/or noted in Figure 11. 6. The value given is the differential input voltage.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Output Delay Measurements
Output delays are measured using a Tektronix P6245 TDS500/600 probe (< 1 pF) across approximately 4" of FR4 microstrip trace. Standard termination was used for all testing. The propagation delay of the 4" trace is characterized separately and subtracted from the final measurement, and is therefore not included in the generalized test setups shown in Figure 11 and Figure 12.
X-Ref Target - Figure 11

X-Ref Target - Figure 12

FPGA Output

+ CREF RREF VMEAS –
ds202_12_042808

VREF

Figure 12: Differential Test Setup Measurements and test conditions are reflected in the IBIS models except where the IBIS format precludes it. Parameters VREF, RREF, CREF, and VMEAS fully describe the test conditions for each I/O standard. The most accurate prediction of propagation delay in any given application can be obtained through IBIS simulation, using the following method: 1. Simulate the output driver of choice into the generalized test setup, using values from Table 59. 2. Record the time to VMEAS .
DS202_06_111608

FPGA Output

RREF

VMEAS
(voltage level when taking delay measurement)

CREF
(probe capacitance)

Figure 11: Single Ended Test Setup

3. Simulate the output driver of choice into the actual PCB trace and load, using the appropriate IBIS model or capacitance value to represent the load. 4. Record the time to VMEAS . 5. Compare the results of steps 2 and 4. The increase or decrease in delay yields the actual propagation delay of the PCB trace.

Table 59: Output Delay Measurement Methodology
Description
LVTTL (Low-Voltage Transistor-Transistor Logic) LVCMOS (Low-Voltage CMOS), 3.3V LVCMOS, 2.5V LVCMOS, 1.8V LVCMOS, 1.5V LVCMOS, 1.2V PCI (Peripheral Component Interface), 33 MHz, 3.3V

I/O Standard Attribute
LVTTL (all) LVCMOS33 LVCMOS25 LVCMOS18 LVCMOS15 LVCMOS12 PCI33_3 (rising edge) PCI33_3 (falling edge) PCI66_3 (rising edge) PCI66_3 (falling edge) PCIX (rising edge) PCIX (falling edge GTL GTLP HSTL_I HSTL_II HSTL_III

RREF (Ω)
1M 1M 1M 1M 1M 1M 25 25 25 25 25 25 25 25 50 25 50

CREF(1) (pF)
0 0 0 0 0 0 10 (2) 10 (2) 10 (2) 10 (2) 10 (3) 10 (3) 0 0 0 0 0

VMEAS (V)
1.4 1.65 1.25 0.9 0.75 0.6 0.94 2.03 0.94 2.03 0.94 2.03 0.8 1.0 VREF VREF 0.9

VREF (V)
0 0 0 0 0 0 0 3.3 0 3.3

PCI, 66 MHz, 3.3V

PCI-X, 133 MHz, 3.3V GTL (Gunning Transceiver Logic) GTL Plus HSTL (High-Speed Transceiver Logic), Class I HSTL, Class II HSTL, Class III

3.3 1.2 1.5 0.75 0.75 1.5

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 59: Output Delay Measurement Methodology (Cont’d)
Description
HSTL, Class IV HSTL, Class I, 1.8V HSTL, Class II, 1.8V HSTL, Class III, 1.8V HSTL, Class IV, 1.8V SSTL (Stub Series Terminated Logic), Class I, 1.8V SSTL, Class II, 1.8V SSTL, Class I, 2.5V SSTL, Class II, 2.5V LVDS (Low-Voltage Differential Signaling), 2.5V LVDSEXT (LVDS Extended Mode), 2.5V BLVDS (Bus LVDS), 2.5V LDT (HyperTransport), 2.5V LVPECL (Low-Voltage Positive Emitter-Coupled Logic), 2.5V LVDCI/HSLVDCI (Low-Voltage Digitally Controlled Impedance), 3.3V LVDCI/HSLVDCI, 2.5V LVDCI/HSLVDCI, 1.8V LVDCI/HSLVDCI, 1.5V HSTL_IV HSTL_I_18 HSTL_II_18 HSTL_III_18 HSTL_IV_18 SSTL18_I SSTL18_II SSTL2_I SSTL2_II LVDS_25 LVDS_25 BLVDS_25 LDT_25 LVPECL_25 LVDCI_33, HSLVDCI_33 LVDCI_25, HSLVDCI_25 LVDCI_18, HSLVDCI_18 LVDCI_15, HSLVDCI_15

I/O Standard Attribute

RREF (Ω)
25 50 25 50 25 50 25 50 25 100 100 100 100 100 1M 1M 1M 1M 50 50 50 50 50 50 50 50

CREF(1) (pF)
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

VMEAS (V)
0.9 VREF VREF 1.1 1.1 VREF VREF VREF VREF 0(4) 0(4) 0(4) 0(4) 0(4) 1.65 1.25 0.9 0.75 VREF 0.9 VREF 1.1 VREF VREF 0.8 1.0

VREF (V)
1.5 0.9 0.9 1.8 1.8 0.9 0.9 1.25 1.25 1.2 1.2 0 0.6 0 0 0 0 0 0.75 1.5 0.9 1.8 0.9 1.25 1.2 1.5

HSTL (High-Speed Transceiver Logic), Class I & II, with DCI HSTL_I_DCI, HSTL_II_DCI HSTL, Class III & IV, with DCI HSTL, Class I & II, 1.8V, with DCI HSTL, Class III & IV, 1.8V, with DCI HSTL_III_DCI, HSTL_IV_DCI HSTL_I_DCI_18, HSTL_II_DCI_18 HSTL_III_DCI_18, HSTL_IV_DCI_18

SSTL (Stub Series Termi.Logic), Class I & II, 1.8V, with DCI SSTL18_I_DCI, SSTL18_II_DCI SSTL, Class I & II, 2.5V, with DCI GTL (Gunning Transceiver Logic) with DCI GTL Plus with DCI
Notes: 1. CREF is the capacitance of the probe, nominally 0 pF. 2. Per PCI specifications. 3. Per PCI-X specifications. 4. The value given is the differential input voltage.

SSTL2_I_DCI, SSTL2_II_DCI GTL_DCI GTLP_DCI

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Input/Output Logic Switching Characteristics
Table 60: ILOGIC Switching Characteristics
Symbol
Setup/Hold TICE1CK/TICKCE1 TISRCK/TICKSR TIDOCK/TIOCKD TIDOCKD/TIOCKDD Combinatorial TIDI TIDID Sequential Delays TIDLO TIDLOD TICKQ TRQ TGSRQ Set/Reset TRPW Minimum Pulse Width, SR/REV inputs 0.78 0.95 1.20 ns, Min D pin to Q1 pin using flip-flop as a latch without Delay DDLY pin to Q1 pin using flip-flop as a latch (using IODELAY) CLK to Q outputs SR/REV pin to OQ/TQ out Global Set/Reset to Q outputs 0.44 0.41 0.47 1.12 7.30 0.50 0.46 0.52 1.28 7.30 0.58 0.55 0.60 1.53 10.10 ns ns ns ns ns D pin to O pin propagation delay, no Delay DDLY pin to O pin propagation delay (using IODELAY) 0.24 0.20 0.26 0.22 0.30 0.26 ns ns CE1 pin Setup/Hold with respect to CLK SR/REV pin Setup/Hold with respect to CLK D pin Setup/Hold with respect to CLK without Delay DDLY pin Setup/Hold with respect to CLK (using IODELAY) 0.43 –0.24 0.85 –0.20 0.34 –0.12 0.31 –0.09 0.49 –0.24 1.00 –0.20 0.37 –0.12 0.33 –0.09 0.59 –0.24 1.22 –0.20 0.39 –0.12 0.36 –0.08 ns ns ns ns

Description

Speed Grade -3 -2 -1

Units

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 61: OLOGIC Switching Characteristics
Symbol
Setup/Hold TODCK/TOCKD TOOCECK/TOCKOCE TOSRCK/TOCKSR TOTCK/TOCKT TOTCECK/TOCKTCE Combinatorial TDOQ Sequential Delays TOCKQ TRQ TGSRQ Set/Reset TRPW Minimum Pulse Width, SR/REV inputs 0.80 0.98 1.25 ns, Min CLK to OQ/TQ out SR/REV pin to OQ/TQ out Global Set/Reset to Q outputs 0.61 1.63 7.30 0.62 1.89 7.30 0.62 2.27 10.10 ns ns ns D1 to OQ out or T1 to TQ out 0.62 0.70 0.83 ns D1/D2 pins Setup/Hold with respect to CLK OCE pin Setup/Hold with respect to CLK SR/REV pin Setup/Hold with respect to CLK T1/T2 pins Setup/Hold with respect to CLK TCE pin Setup/Hold with respect to CLK 0.30 –0.21 0.16 –0.07 0.93 –0.20 0.28 –0.18 0.20 –0.06 0.36 –0.21 0.19 –0.07 1.02 –0.20 0.34 –0.18 0.23 –0.06 0.44 –0.21 0.23 –0.07 1.16 –0.20 0.41 –0.18 0.29 –0.06 ns ns ns ns ns

Description

Speed Grade -3 -2 -1

Units

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Input Serializer/Deserializer Switching Characteristics
Table 62: ISERDES Switching Characteristics
Symbol
Setup/Hold for Control Lines TISCCK_BITSLIP/ TISCKC_BITSLIP TISCCK_CE / TISCKC_CE(2) TISCCK_CE2 / TISCKC_CE2(2) Setup/Hold for Data Lines TISDCK_D /TISCKD_D TISDCK_DDLY /TISCKD_DDLY TISDCK_DDR /TISCKD_DDR TISDCK_DDLY_DDR TISCKD_DDLY_DDR Sequential Delays TISCKO_Q Propagation Delays TISDO_DO D input to DO output pin 0.20 0.22 0.26 ns CLKDIV to out at Q pin 0.46 0.51 0.60 ns D pin Setup/Hold with respect to CLK DDLY pin Setup/Hold with respect to CLK (using IODELAY) D pin Setup/Hold with respect to CLK at DDR mode D pin Setup/Hold with respect to CLK at DDR mode (using IODELAY) 0.34 –0.12 0.31 –0.09 0.34 –0.12 0.31 –0.09 0.37 –0.12 0.33 –0.09 0.37 –0.12 0.33 –0.09 0.39 –0.12 0.36 –0.08 0.39 –0.12 0.36 –0.08 ns ns ns ns BITSLIP pin Setup/Hold with respect to CLKDIV CE pin Setup/Hold with respect to CLK (for CE1) CE pin Setup/Hold with respect to CLKDIV (for CE2) 0.10 0.00 0.43 –0.24 0.03 0.11 0.11 0.00 0.49 –0.24 0.04 0.13 0.12 0.00 0.59 –0.24 0.06 0.15 ns ns ns

Description

Speed Grade -3 -2 -1

Units

Notes: 1. Recorded at 0 tap value. 2. TISCCK_CE2 and TISCKC_CE2 are reported as TISCCK_CE/TISCKC_CE in TRACE report.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Output Serializer/Deserializer Switching Characteristics
Table 63: OSERDES Switching Characteristics
Symbol
Setup/Hold TOSDCK_D/TOSCKD_D TOSDCK_T/TOSCKD_T(1) TOSDCK_T2/TOSCKD_T2(1) TOSCCK_OCE/TOSCKC_OCE TOSCCK_S TOSCCK_TCE/TOSCKC_TCE Sequential Delays TOSCKO_OQ TOSCKO_TQ Combinatorial TOSDO_TTQ TOSCO_OQ TOSCO_TQ T input to TQ Out Asynchronous Reset to OQ Asynchronous Reset to TQ 0.62 1.57 1.63 0.70 1.82 1.89 0.83 2.19 2.27 ns ns ns Clock to out from CLK to OQ Clock to out from CLK to TQ 0.59 0.61 0.60 0.62 0.61 0.62 ns ns D input Setup/Hold with respect to CLKDIV T input Setup/Hold with respect to CLK T input Setup/Hold with respect to CLKDIV OCE input Setup/Hold with respect to CLK SR (Reset) input Setup with respect to CLKDIV TCE input Setup/Hold with respect to CLK 0.21 –0.02 0.28 –0.18 0.21 –0.03 0.16 –0.07 0.52 0.20 –0.06 0.24 –0.02 0.34 –0.18 0.24 –0.03 0.19 –0.07 0.58 0.23 –0.06 0.30 –0.02 0.41 –0.18 0.28 –0.03 0.23 –0.07 0.70 0.29 –0.06 ns ns ns ns ns ns

Description

Speed Grade -3 -2 -1

Units

Notes: 1. TOSDCK_T2 and TOSCKD_T2 are reported as TOSDCK_T/TOSCKD_T in TRACE report.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Input/Output Delay Switching Characteristics
Table 64: Input/Output Delay Switching Characteristics
Symbol
IDELAYCTRL TIDELAYCTRLCO_RDY FIDELAYCTRL_REF
IDELAYCTRL_REF_PRECISION

Description

Speed Grade -3 -2 -1

Units

Reset to Ready for IDELAYCTRL REFCLK frequency REFCLK precision Minimum Reset pulse width

3.00 200.00 ±10 50.00

3.00 200.00 ±10 50.00 1/(64 x FREF x 1e6)(1)

3.00 200.00 ±10 50.00

?s MHz MHz ns

TIDELAYCTRL_RPW IODELAY TIDELAYRESOLUTION

IODELAY Chain Delay Resolution Pattern dependent period jitter in delay chain for clock pattern Pattern dependent period jitter in delay chain for random data pattern (PRBS 23) Maximum frequency of CLK input to IODELAY CE pin Setup/Hold with respect to CK INC pin Setup/Hold with respect to CK RST pin Setup/Hold with respect to CK TSCONTROL delay to MUXE/MUXF switching and through IODELAY Propagation delay through IODELAY Propagation delay through IODELAY 0 ±5 300 0.29 –0.06 0.18 0.02 0.25 –0.12 Note 3 Note 3 Note 3

ps 0 ±5 250 0.42 –0.06 0.24 0.06 0.33 –0.12 Note 3 Note 3 Note 3 Note 2 Note 2 MHz ns ns ns

0 ±5 250 0.34 –0.06 0.20 0.04 0.28 –0.12 Note 3 Note 3 Note 3

TIDELAYPAT_JIT

TIODELAY_CLK_MAX TIODCCK_CE / TIODCKC_CE TIODCK_INC/ TIODCKC_INC TIODCK_RST/ TIODCKC_RST TIODDO_T TIODDO_IDATAIN TIODDO_ODATAIN

Notes: 1. Average Tap Delay at 200 MHz = 78 ps. 2. Units in ps, peak-to-peak per tap, in High Performance mode. 3. Delay depends on IODELAY tap setting. See TRACE report for actual values.

CLB Switching Characteristics
Table 65: CLB Switching Characteristics
Symbol
Combinatorial Delays TILO An – Dn LUT address to A An – Dn LUT address to AMUX/CMUX An – Dn LUT address to BMUX_A TITO TAXA TAXB TAXC TAXD TBXB TBXD An – Dn inputs to A – D Q outputs AX inputs to AMUX output AX inputs to BMUX output AX inputs to CMUX output AX inputs to DMUX output BX inputs to BMUX output BX inputs to DMUX output 0.08 0.20 0.31 0.67 0.39 0.46 0.31 0.55 0.36 0.45 0.09 0.22 0.35 0.77 0.44 0.52 0.36 0.62 0.41 0.51 0.10 0.25 0.40 0.90 0.53 0.61 0.42 0.73 0.48 0.59 ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max

Description

Speed Grade -3 -2 -1

Units

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 65: CLB Switching Characteristics (Cont’d)
Symbol
TCXB TCXD TDXD TOPCYA TOPCYB TOPCYC TOPCYD TAXCY TBXCY TCXCY TDXCY TBYP TCINA TCINB TCINC TCIND Sequential Delays TCKO TDICK/TCKDI TRCK TCECK/TCKCE TSRCK/TCKSR TCINCK/TCKCIN Set/Reset TSRMIN TRQ TCEO FTOG SR input minimum pulse width Delay from SR or REV input to AQ – DQ flip-flops Delay from CE input to AQ – DQ flip-flops Toggle frequency (for export control) 0.90 0.74 0.46 1412 0.90 0.86 0.52 1265 0.90 1.03 0.63 1098 ns, Min ns, Max ns, Max MHz Clock to AQ – DQ outputs 0.35 0.40 0.47 ns, Max

Description
CX inputs to CMUX output CX inputs to DMUX output DX inputs to DMUX output An input to COUT output Bn input to COUT output Cn input to COUT output Dn input to COUT output AX input to COUT output BX input to COUT output CX input to COUT output DX input to COUT output CIN input to COUT output CIN input to AMUX output CIN input to BMUX output CIN input to CMUX output CIN input to DMUX output

Speed Grade -3
0.33 0.37 0.38 0.43 0.39 0.33 0.30 0.36 0.26 0.20 0.20 0.09 0.24 0.27 0.29 0.31

-2
0.36 0.42 0.42 0.50 0.44 0.37 0.34 0.42 0.30 0.22 0.22 0.10 0.27 0.30 0.32 0.35

-1
0.42 0.49 0.49 0.59 0.51 0.43 0.40 0.50 0.37 0.26 0.26 0.11 0.31 0.35 0.36 0.41

Units
ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max

Setup and Hold Times of CLB Flip-Flops Before/After Clock CLK A – D input to CLK on A – D Flip Flops DX input to CLK when used as REV CE input to CLK on A – D Flip Flops SR input to CLK on A – D Flip Flops CIN input to CLK on A – D Flip Flops 0.36 0.19 0.37 0.18 –0.04 0.41 –0.19 0.14 0.14 0.41 0.21 0.42 0.20 –0.04 0.49 –0.19 0.16 0.16 0.49 0.24 0.51 0.23 –0.04 0.59 –0.19 0.18 0.19 ns, Min ns, Min ns, Min ns, Min ns, Min

Notes: 1. A Zero “0” Hold Time listing indicates no hold time or a negative hold time. Negative values can not be guaranteed “best-case”, but if a “0” is listed, there is no positive hold time. 2. These items are of interest for Carry Chain applications.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

CLB Distributed RAM Switching Characteristics (SLICEM Only)
Table 66: CLB Distributed RAM Switching Characteristics
Symbol
Sequential Delays TSHCKO TSHCKO_1 TDS/TDH TAS/TAH TWS/TWH TCECK/TCKCE Clock CLK TMPW TMCP Minimum pulse width Minimum clock period 0.70 1.40 0.82 1.64 1.00 2.00 ns, Min ns, Min Clock to A – B outputs Clock to AMUX – BMUX outputs 1.08 1.19 1.26 1.38 1.54 1.68 ns, Max ns, Max

Description

Speed Grade -3 -2 -1

Units

Setup and Hold Times Before/After Clock CLK A – D inputs to CLK Address An inputs to clock WE input to clock CE input to CLK 0.72 0.20 0.41 0.20 0.34 –0.06 0.36 –0.08 0.84 0.22 0.46 0.22 0.39 –0.04 0.42 –0.07 1.03 0.26 0.54 0.27 0.46 –0.02 0.51 –0.06 ns, Min ns, Min ns, Min ns, Min

Notes: 1. A Zero “0” Hold Time listing indicates no hold time or a negative hold time. Negative values cannot be guaranteed “best-case”, but if a “0” is listed, there is no positive hold time. 2. TSHCKO also represents the CLK to XMUX output. Refer to TRACE report for the CLK to XMUX path.

CLB Shift Register Switching Characteristics (SLICEM Only)
Table 67: CLB Shift Register Switching Characteristics
Symbol
Sequential Delays TREG TREG_MUX TREG_M31 Clock to A – D outputs Clock to AMUX – DMUX output Clock to DMUX output via M31 output 1.23 1.33 0.99 1.43 1.55 1.15 1.73 1.87 1.38 ns, Max ns, Max ns, Max

Description

Speed Grade -3 -2 -1

Units

Setup and Hold Times Before/After Clock CLK TWS/TWH TCECK/TCKCE TDS/TDH Clock CLK TMPW Minimum pulse width 0.60 0.70 0.85 ns, Min WE input CE input to CLK A – D inputs to CLK 0.21 –0.06 0.23 –0.08 0.57 0.07 0.24 –0.04 0.27 –0.07 0.66 0.09 0.29 –0.02 0.33 –0.06 0.78 0.11 ns, Min ns, Min ns, Min

Notes: 1. A Zero “0” Hold Time listing indicates no hold time or a negative hold time. Negative values cannot be guaranteed “best-case”, but if a “0” is listed, there is no positive hold time.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Block RAM and FIFO Switching Characteristics
Table 68: Block RAM and FIFO Switching Characteristics
Symbol
Block RAM and FIFO Clock to Out Delays TRCKO_DO and TRCKO_DOR(1) Clock CLK to DOUT output (without output register)(2)(3) Clock CLK to DOUT output (with output register)(4)(5) Clock CLK to DOUT output with ECC (without output register)(2)(3) Clock CLK to DOUT output with ECC (with output register)(4)(5) Clock CLK to DOUT output with Cascade (without output register)(2) Clock CLK to DOUT output with Cascade (with output register)(4) TRCKO_FLAGS TRCKO_POINTERS TRCKO_ECCR TRCKO_ECC Clock CLK to FIFO flags outputs(6) Clock CLK to FIFO pointer outputs(7) Clock CLK to BITERR (with output register) Clock CLK to BITERR (without output register) Clock CLK to ECCPARITY in standard ECC mode Clock CLK to ECCPARITY in ECC encode only mode Setup and Hold Times Before/After Clock CLK TRCCK_ADDR/TRCKC_ADDR TRDCK_DI/TRCKD_DI TRDCK_DI_ECC/TRCKD_DI_ECC ADDR inputs(8) DIN inputs(9) DIN inputs with ECC in standard mode(9) DIN inputs with ECC encode only(9 TRCCK_EN/TRCKC_EN TRCCK_REGCE/TRCKC_REGCE TRCCK_SSR/TRCKC_SSR TRCCK_WE/TRCKC_WE TRCCK_WREN/TRCKC_WREN Block RAM Enable (EN) input CE input of output register Synchronous Set/ Reset (SSR) input Write Enable (WE) input WREN/RDEN FIFO inputs(10) 0.34 0.30 0.27 0.28 0.33 0.32 0.68 0.32 0.32 0.15 0.15 0.22 0.17 0.23 0.44 0.16 0.36 0.30 0.40 0.32 0.30 0.28 0.37 0.33 0.72 0.33 0.36 0.15 0.16 0.24 0.21 0.25 0.51 0.17 0.41 0.34 0.48 0.36 0.35 0.29 0.42 0.36 0.77 0.36 0.42 0.15 0.18 0.27 0.26 0.28 0.63 0.18 0.48 0.40 ns, Min ns, Min ns, Min ns, Min ns, Min ns, Min ns, Min ns, Min ns, Min 1.79 0.61 2.64 0.66 2.10 0.91 0.76 1.10 0.66 2.48 1.29 0.77 1.92 0.69 3.03 0.77 2.44 1.07 0.87 1.26 0.77 2.85 1.47 0.89 2.19 0.82 3.61 0.93 2.94 1.30 1.02 1.48 0.93 3.41 1.74 1.05 ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max ns, Max

Description

Speed Grade -3 -2 -1

Units

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 68: Block RAM and FIFO Switching Characteristics (Cont’d)
Symbol
Reset Delays TRCO_FLAGS Maximum Frequency FMAX FMAX_CASCADE FMAX_FIFO FMAX_ECC Block RAM in all modes Block RAM in cascade configuration FIFO in all modes Block RAM and FIFO in ECC configuration 550 500 550 415 500 450 500 375 450 400 450 325 MHz MHz MHz MHz Reset RST to FIFO Flags/Pointers(11) 1.10 1.26 1.48 ns, Max

Description

Speed Grade -3 -2 -1

Units

Notes: 1. TRACE will report all of these parameters as TRCKO_DO. 2. TRCKO_DOR includes TRCKO_DOW, TRCKO_DOPR, and TRCKO_DOPW as well as the B port equivalent timing parameters. 3. These parameters also apply to synchronous FIFO with DO_REG = 0. 4. TRCKO_DO includes TRCKO_DOP as well as the B port equivalent timing parameters. 5. These parameters also apply to multirate (asynchronous) and synchronous FIFO with DO_REG = 1. 6. TRCKO_FLAGS includes the following parameters: TRCKO_AEMPTY, TRCKO_AFULL, TRCKO_EMPTY, TRCKO_FULL, TRCKO_RDERR, TRCKO_WRERR. 7. TRCKO_POINTERS includes both TRCKO_RDCOUNT and TRCKO_WRCOUNT. 8. The ADDR setup and hold must be met when EN is asserted even though WE is deasserted. Otherwise, block RAM data corruption is possible. 9. TRCKO_DI includes both A and B inputs as well as the parity inputs of A and B. 10. These parameters also apply to RDEN. 11. TRCO_FLAGS includes the following flags: AEMPTY, AFULL, EMPTY, FULL, RDERR, WRERR, RDCOUNT, and WRCOUNT.

DSP48E Switching Characteristics
Table 69: DSP48E Switching Characteristics
Symbol Description Speed -3 -2 -1 Units

Setup and Hold Times of Data/Control Pins to the Input Register Clock TDSPDCK_{AA, BB, ACINA, BCINB}/ TDSPCKD_{AA, BB, ACINA, BCINB} TDSPDCK_CC/TDSPCKD_CC {A, B, ACIN, BCIN} input to {A, B} register CLK C input to C register CLK 0.17 0.17 0.14 0.26 0.21 0.23 0.16 0.31 0.26 0.30 0.20 0.37 ns ns

Setup and Hold Times of Data Pins to the Pipeline Register Clock TDSPDCK_{AM, BM, ACINM, BCINM}/ TDSPCKD_{AM, BM, ACINM, BCINM} {A, B, ACIN, BCIN} input to M register CLK 1.30 0.19 1.44 0.19 1.71 0.19 ns

Setup and Hold Times of Data/Control Pins to the Output Register Clock TDSPDCK_{AP, BP, ACINP, BCINP}_M/ TDSPCKD_{AP, BP, ACINP, BCINP}_M TDSPDCK_{AP, BP, ACINP, BCINP}_NM/ TDSPCKD_{AP, BP, ACINP, BCINP}_NM TDSPDCK_CP/TDSPCKD_CP TDSPDCK_{PCINP, CRYCINP, MULTSIGNINP}/ TDSPCKD_{PCINP, CRYCINP, MULTSIGNINP} Setup and Hold Times of the CE Pins TDSPCCK_{CEA1A, CEA2A, CEB1B, CEB2B}/ TDSPCKC_{CEA1A, CEA2A, CEB1A, CEB2B} TDSPCCK_CECC/TDSPCKC_CECC TDSPCCK_CEMM/TDSPCKC_CEMM {CEA1, CEA2A, CEB1B, CEB2B} input to {A, B} register CLK CEC input to C register CLK CEM input to M register CLK 0.24 0.21 0.19 0.17 0.25 0.18 0.28 0.25 0.21 0.21 0.29 0.21 0.33 0.31 0.26 0.28 0.36 0.26 ns ns ns {A, B, ACIN, BCIN} input to P register CLK using multiplier {A, B, ACIN, BCIN} input to P register CLK not using multiplier C input to P register CLK {PCIN, CARRYCASCIN, MULTSIGNIN} input to P register CLK 2.39 –0.30 1.35 –0.10 1.30 –0.13 1.06 0.11 2.74 –0.30 1.54 –0.10 1.42 –0.13 1.17 0.11 3.25 –0.30 1.83 –0.10 1.70 –0.13 1.31 0.11 ns ns ns ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 69: DSP48E Switching Characteristics (Cont’d)
Symbol
TDSPCCK_CEPP/TDSPCKC_CEPP Setup and Hold Times of the RST Pins TDSPCCK_{RSTAA, RSTBB}/ TDSPCKC_{RSTAA, RSTBB} TDSPCCK_RSTCC/ TDSPCKC_RSTCC TDSPCCK_RSTMM/ TDSPCKC_RSTMM TDSPCCK_RSTPP/TDSPCKC_RSTPP Combinatorial Delays from Input Pins to Output Pins TDSPDO_{AP, ACRYOUT, BP, BCRYOUT}_M TDSPDO_{AP, ACRYOUT, BP, BCRYOUT}_NM TDSPDO_{CP, CCRYOUT, CRYINP, CRYINCRYOUT} {A, B} input to {P, CARRYOUT} output using multiplier {A, B} input to {P, CARRYOUT} output not using multiplier {C, CARRYIN} input to {P, CARRYOUT} output 2.78 1.59 1.50 3.22 1.77 1.67 3.84 2.22 2.08 ns ns ns {RSTA, RSTB} input to {A, B} register CLK RSTC input to C register CLK RSTM input to M register CLK RSTP input to P register CLK 0.24 0.23 0.19 0.17 0.25 0.18 0.56 0.01 0.28 0.26 0.21 0.21 0.29 0.21 0.63 0.01 0.33 0.31 0.26 0.28 0.36 0.26 0.73 0.01 ns ns ns ns

Description
CEP input to P register CLK

Speed -3
0.56 0.01

-2
0.63 0.01

-1
0.73 0.01

Units
ns

Combinatorial Delays from Input Pins to Cascading Output Pins TDSPDO_{AACOUT, BBCOUT} TDSPDO_{APCOUT, ACRYCOUT, AMULTSIGNOUT, BPCOUT, BCRYCOUT, BMULTSIGNOUT}_M TDSPDO_{APCOUT, ACRYCOUT, AMULTSIGNOUT, BPCOUT, BCRYCOUT, BMULTSIGNOUT}_NM TDSPDO_{CPCOUT, CCRYCOUT, CMULTSIGNOUT, CRYINPCOUT, CRYINCRYCOUT, CRYINMULTSIGNOUT} {A, B} input to {ACOUT, BCOUT} output {A, B} input to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output using multiplier {A, B} input to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output not using multiplier {C, CARRYIN} input to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output 1.00 2.78 1.12 3.22 1.31 3.84 ns ns

1.72

1.92

2.42

ns

1.63

1.82

2.28

ns

Combinatorial Delays from Cascading Input Pins to All Output Pins TDSPDO_{ACINP, ACINCRYOUT, BCINP, BCINCRYOUT}_M TDSPDO_{ACINP, ACINCRYOUT, BCINP, BCINCRYOUT}_NM TDSPDO_{ACINACOUT, BCINBCOUT} TDSPDO_{ACINPCOUT, ACINCRYCOUT, ACINMULTSIGNOUT, BCINPCOUT, BCINCRYCOUT, BCINMULTSIGNOUT}_M TDSPDO_{ACINPCOUT, ACINCRYCOUT, ACINMULTSIGNOUT, BCINPCOUT, BCINCRYCOUT, BCINMULTSIGNOUT}_NM TDSPDO_{PCINP, CRYCINP, MULTSIGNINP, PCINCRYOUT, CRYCINCRYOUT, MULTSIGNINCRYOUT} {ACIN, BCIN} input to {P, CARRYOUT} output using multiplier {ACIN, BCIN} input to {P, CARRYOUT} output not using multiplier {ACIN, BCIN} input to {ACOUT, BCOUT} output {ACIN, BCIN} input to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output using multiplier {ACIN, BCIN} input to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output not using multiplier {PCIN, CARRYCASCIN, MULTSIGNIN} input to {P, CARRYOUT} output 2.78 1.59 1.00 2.78 3.22 1.77 1.12 3.22 3.84 2.22 1.31 3.84 ns ns ns ns

1.72

1.92

2.42

ns

1.30

1.45

1.82

ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 69: DSP48E Switching Characteristics (Cont’d)
Symbol
TDSPDO_{PCINPCOUT, CRYCINPCOUT, MULTSIGNINPCOUT, PCINCRYCOUT, CRYCINCRYCOUT, MULTSIGNINCRYCOUT, PCINMULTSIGNOUT, CRYCINMULTSIGNOUT, MULTSIGNINMULTSIGNOUT}

Description
{PCIN, CARRYCASCIN, MULTSIGNIN} input to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output

Speed -3
1.43

-2
1.60

-1
2.02

Units
ns

Clock to Outs from Output Register Clock to Output Pins TDSPCKO_{PP, CRYOUTP} TDSPCKO_{CRYCOUTP, PCOUTP, MULTSIGNOUTP} CLK (PREG) to {P, CARRYOUT} output CLK (PREG) to {CARRYCASCOUT, PCOUT, MULTSIGNOUT} output 0.45 0.48 0.48 0.53 0.56 0.62 ns ns

Clock to Outs from Pipeline Register Clock to Output Pins TDSPCKO_{PM, CRYOUTM} TDSPCKO_{PCOUTM, CRYCOUTM, MULTSIGNOUTM} CLK (MREG) to {P, CARRYOUT} output CLK (MREG) to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output 1.81 1.91 2.10 2.13 2.47 2.66 ns ns

Clock to Outs from Input Register Clock to Output Pins TDSPCKO_{PA, CRYOUTA, PB, CRYOUTB}_M TDSPCKO_{PA, CRYOUTA, PB, CRYOUTB}_NM TDSPCKO_{PC, CRYOUTC} CLK (AREG, BREG) to {P, CARRYOUT} output using multiplier CLK (AREG, BREG) to {P, CARRYOUT} output not using multiplier CLK (CREG) to {P, CARRYOUT} output 3.09 1.90 1.89 3.57 2.11 2.11 4.23 2.63 2.62 ns ns ns

Clock to Outs from Input Register Clock to Cascading Output Pins TDSPCKO_{ACOUTA, BCOUTB} TDSPCKO_{PCOUTA, CRYCOUTA, MULTSIGNOUTA, PCOUTB, CRYCOUTB, MULTSIGNOUTB}_M TDSPCKO_{PCOUTA, CRYCOUTA, MULTSIGNOUTA, PCOUTB, CRYCOUTB, MULTSIGNOUTB}_NM CLK (AREG, BREG) to {ACOUT, BCOUT} CLK (AREG, BREG) to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output using multiplier CLK (AREG, BREG) to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output not using multiplier 0.61 3.09 0.68 3.57 0.79 4.23 ns ns

2.03

2.27

2.82

ns

TDSPCKO_{PCOUTC, CRYCOUTC, MULTSIGNOUTC} CLK (CREG) to {PCOUT, CARRYCASCOUT, MULTSIGNOUT} output Maximum Frequency FMAX FMAX_PATDET FMAX_MULT_NOMREG FMAX_MULT_NOMREG_PATDET With all registers used With pattern detector Two register multiply without MREG Two register multiply without MREG with pattern detect

2.03

2.26

2.82

ns

550 515 374 345

500 465 324 300

450 410 275 254

MHz MHz MHz MHz

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Configuration Switching Characteristics
Table 70: Configuration Switching Characteristics
Symbol
Power-up Timing Characteristics TPL TPOR TICCK TPROGRAM TDCCK/TCCKD TDSCCK/TSCCKD TCCO FMCCK FMCCKTOL FMSCCK TSMDCCK/TSMCCKD TSMCSCCK/TSMCCKCS TSMCCKW/TSMWCCK TSMCKCSO TSMCO TSMCKBY FSMCCK FRBCCK FMCCKTOL Program Latency Power-on-Reset CCLK (output) delay Program Pulse Width 3 10 50 400 250 3 10 50 400 250 3 10 50 400 250 ms, Max ms, Min/Max ns, Min ns, Min

Description

Speed Grade -3 -2 -1

Units

Master/Slave Serial Mode Programming Switching(1) DIN Setup/Hold, slave mode DIN Setup/Hold, master mode DOUT Maximum Frequency, master mode with respect to nominal CCLK. Frequency Tolerance, master mode with respect to nominal CCLK. Slave mode external CCLK 4.0 0.0 4.0 0.0 7.5 100 ±50 100 4.0 0.0 4.0 0.0 7.5 100 ±50 100 4.0 0.0 4.0 0.0 7.5 100 ±50 100 ns, Min ns, Min ns, Max MHz, Max % MHz

SelectMAP Mode Programming Switching(1) SelectMAP Data Setup/Hold CS_B Setup/Hold RDWR_B Setup/Hold CSO_B clock to out (330 Ω pull-up resistor required) CCLK to DATA out in readback CCLK to BUSY out in readback Maximum Frequency with respect to nominal CCLK. Maximum Readback Frequency with respect to nominal CCLK Frequency Tolerance with respect to nominal CCLK. 3.0 0.5 3.0 0.5 8.0 0.5 10 9.0 7.5 100 60 ±50 3.0 0.5 3.0 0.5 8.0 0.5 10 9.0 7.5 100 60 ±50 3.0 0.5 3.0 0.5 8.0 0.5 10 9.0 7.5 100 60 ±50 ns, Min ns, Min ns, Min ns, Min ns, Max ns, Max MHz, Max MHz, Max %

Boundary-Scan Port Timing Specifications TTAPTCK TTCKTAP TTCKTDO FTCK FTCKB TMS and TDI Setup time before TCK TMS and TDI Hold time after TCK TCK falling edge to TDO output valid Maximum configuration TCK clock frequency Maximum boundary-scan TCK clock frequency 1.0 2.0 6 66 66 1.0 2.0 6 66 66 1.0 2.0 6 66 66 ns, Min ns, Min ns, Max MHz, Max MHz, Max

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 70: Configuration Switching Characteristics (Cont’d)
Symbol
BPI Master Flash Mode Programming Switching TBPICCO(4) TBPIDCC/TBPICCD TINITADDR ADDR[25:0], RS[1:0], FCS_B, FOE_B, FWE_B outputs valid after CCLK rising edge Setup/Hold on D[15:0] data input pins Minimum period of initial ADDR[25:0] address cycles 10 3.0 0.5 3.0 10 3.0 0.5 3.0 10 3.0 0.5 3.0 ns ns CCLK cycles

Description

Speed Grade -3 -2 -1

Units

SPI Master Flash Mode Programming Switching TSPIDCC/TSPIDCCD TSPICCM TSPICCFC TFSINIT/TFSINITH CCLK Output (Master Modes) TMCCKL TMCCKH CCLK Input (Slave Modes) TSCCKL TSCCKH FDCK TDMCCK_DADDR/TDMCKC_DADDR TDMCCK_DI/TDMCKC_DI TDMCCK_DEN/TDMCKC_DEN TDMCCK_DWE/TDMCKC_DWE TDMCKO_DO TDMCKO_DRDY Slave CCLK clock minimum Low time Slave CCLK clock minimum High time 2.0 2.0 2.0 2.0 2.0 2.0 ns, Min ns, Min Master CCLK clock minimum Low time Master CCLK clock minimum High time 3.0 3.0 3.0 3.0 3.0 3.0 ns, Min ns, Min DIN Setup/Hold before/after the rising CCLK edge MOSI clock to out FCS_B clock to out FS[2:0] to INIT_B rising edge Setup and Hold 4.0 0.0 10 10 2 4.0 0.0 10 10 2 4.0 0.0 10 10 2 ns ns ns ?s

Dynamic Reconfiguration Port (DRP) for DCM and PLL Before and After DCLK Maximum frequency for DCLK DADDR Setup/Hold DI Setup/Hold DEN Setup/Hold time DWE Setup/Hold time CLK to out of DO(3) CLK to out of DRDY 500 1.2 0.0 1.2 0.0 1.2 0.0 1.2 0.0 1.0 1.0 450 1.35 0.0 1.35 0.0 1.35 0.0 1.35 0.0 1.12 1.12 400 1.56 0.0 1.56 0.0 1.56 0.0 1.56 0.0 1.3 1.3 MHz ns ns ns ns ns ns

Notes: 1. Maximum frequency and setup/hold timing parameters are for 3.3V and 2.5V configuration voltages. 2. To support longer delays in configuration, use the design solutions described in UG190: Virtex-5 FPGA User Guide. 3. DO will hold until next DRP operation. 4. Only during configuration, the last edge is determined by a weak pull-up/pull-down resistor in the I/O.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Clock Buffers and Networks
Table 71: Global Clock Switching Characteristics (Including BUFGCTRL)
Symbol
TBCCCK_CE/TBCCKC_CE(1) TBCCCK_S/TBCCKC_S(1)

Description
CE pins Setup/Hold S pins Setup/Hold All All LX20T

Devices

Speed Grade -3
0.27 0.00 0.27 0.00 N/A 0.19

-2
0.27 0.00 0.27 0.00 0.24 0.22

-1
0.31 0.00 0.31 0.00 0.30 0.25

Units
ns ns ns ns

TBCCKO_O(2)

BUFGCTRL delay from I0/I1 to O

LX30, LX30T, LX50, LX50T, LX85, LX85T, LX110, LX110T, SX35T, SX50T, FX70T, FX100T, and FX130T FX30T LX155 and LX155T LX220, LX220T, LX330, LX330T, SX95T, SX240T, TX150T, TX240T, and FX200T

0.23 0.12 N/A

0.23 0.14 0.22

0.25 0.30 0.25

ns ns ns

Maximum Frequency LX20T LX30, LX30T, LX50, LX50T, LX85, LX85T, LX110, LX110T, SX35T, SX50T, FX30T, and FX70T FMAX Global clock tree (BUFG) LX155, LX155T, and FX100T FX130T LX220, LX220T, LX330, LX330T, SX95T, SX240T, TX150T, TX240T, and FX200T N/A 710 667 667 600 600 MHz MHz

650 550 N/A

600 500 500

550 450 450

MHz MHz MHz

Notes: 1. TBCCCK_CE and TBCCKC_CE must be satisfied to assure glitch-free operation of the global clock when switching between clocks. These parameters do not apply to the BUFGMUX_VIRTEX4 primitive that assures glitch-free operation. The other global clock setup and hold times are optional; only needing to be satisfied if device operation requires simulation matches on a cycle-for-cycle basis when switching between clocks.

2.

TBGCKO_O (BUFG delay from I0 to O) values are the same as TBCCKO_O values.

Table 72: Input/Output Clock Switching Characteristics (BUFIO)
Symbol
TBUFIOCKO_O Maximum Frequency FMAX I/O clock tree (BUFIO) 710 710 644 MHz

Description
Clock to out delay from I to O

Speed Grade -3
1.08

-2
1.16

-1
1.29

Units
ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 73: Regional Clock Switching Characteristics (BUFR)
Symbol Description
LX20T LX30, LX30T, LX50, LX50T, LX85, LX85T, LX110, LX110T, SX35T, SX50T, FX100T, and FX130T TBRCKO_O Clock to out delay from I to O FX30T FX70T LX155 and LX155T LX220, LX220T, LX330, LX330T, SX95T, SX240T, TX150T, TX240T, and FX200T LX20T LX30, LX30T, LX50, LX50T, LX85, LX85T, LX110, LX110T, SX35T, SX50T, FX30T, FX70T, FX100T, and FX130T LX155 and LX155T LX220, LX220T, LX330, LX330T, SX95T, SX240T, TX150T, TX240T, and FX200T TBRDO_CLRO Maximum Frequency FMAX Regional clock tree (BUFR) All 300 250 250 MHz Propagation delay from CLR to O All

Devices

Speed Grade -3
N/A 0.56

-2
0.79 0.59

-1
0.90 0.67

Units
ns ns

0.72 0.69 0.73 N/A

0.78 0.74 0.80 0.59

0.86 0.83 0.90 0.67

ns ns ns ns

N/A 0.23

0.29 0.24

0.30 0.26

ns ns

TBRCKO_O_BYP

Clock to out delay from I to O with Divide Bypass attribute set

0.24 N/A

0.26 0.24

0.30 0.26

ns ns

0.61

0.70

0.82

ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

PLL Switching Characteristics
Table 74: PLL Specification
Symbol
FINMAX FINMIN FINJITTER FINDUTY

Description
Maximum Input Clock Frequency Minimum Input Clock Frequency Maximum Input Clock Period Jitter Allowable Input Duty Cycle: 19—49 MHz Allowable Input Duty Cycle: 50—199 MHz Allowable Input Duty Cycle: 200—399 MHz Allowable Input Duty Cycle: 400—499 MHz Allowable Input Duty Cycle: >500 MHz

Speed Grade -3
710 19

-2
710 19

-1
645 19

Units
MHz MHz

<20% of clock input period or 1 ns Max 25/75 30/70 35/65 40/60 45/55 400 1440 1 4 120 400 1200 1 4 120 Note 1 400 1000 1 4 120 % % % % % MHz MHz MHz MHz ps

FVCOMIN FVCOMAX FBANDWIDTH TSTAPHAOFFSET TOUTJITTER TOUTDUTY TLOCKMAX

Minimum PLL VCO Frequency Maximum PLL VCO Frequency Low PLL Bandwidth at High PLL Bandwidth at Jitter(2) Precision(3) Typical(1) Typical(1)

Static Phase Offset of the PLL Outputs PLL Output

PLL Output Clock Duty Cycle PLL Maximum Lock Time(4)

150 100 N/A 710

200 100 667 667

200 100 600 600

ps ?s MHz MHz

PLL Maximum Output Frequency for LX20T devices PLL Maximum Output Frequency for LX30, LX30T, LX50, LX50T, LX85, LX85T, LX110, LX110T, SX35T, SX50T, FX30T, and FX70Tdevices FOUTMAX PLL Maximum Output Frequency for LX155, LX155T, and FX100T devices PLL Maximum Output Frequency for FX130T devices PLL Maximum Output Frequency for LX220, LX220T, LX330, LX330T, SX95T, SX240T, TX150T, TX240T, and FX200T devices FOUTMIN TEXTFDVAR RSTMINPULSE FPFDMAX FPFDMIN TFBDELAY PLL Minimum Output Frequency(5) External Clock Feedback Variation Minimum Reset Pulse Width Maximum Frequency at the Phase Frequency Detector Minimum Frequency at the Phase Frequency Detector Maximum Delay in the Feedback Path

650 550 N/A

600 500 500

550 450 450

MHz MHz MHz

3.125

3.125

3.125

MHz

< 20% of clock input period or 1 ns Max 5 550 19 5 500 19 5 450 19 ns MHz MHz

3 ns Max or one CLKIN cycle

Notes: 1. The PLL does not filter typical spread spectrum input clocks because they are usually far below the bandwidth filter frequencies. 2. Values for this parameter are available in the Architecture Wizard. 3. Includes global clock buffer. 4. The LOCK signal must be sampled after TLOCKMAX. The LOCK signal is invalid after configuration or reset until the TLOCKMAX time has expired. 5. Calculated as FVCO/128 assuming output duty cycle is 50%.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 75: PLL in PMCD Mode Switching Characteristics
Symbol
TPLLCCK_REL/TPLLCKC_REL TPLLCCKO CLKIN_FREQ_MAX CLKIN_FREQ_MIN CLKIN_DUTY_CYCLE

Description
REL Setup and Hold for all Outputs Maximum Clock Propagation Delay Maximum Input Frequency Minimum Input Frequency Allowable Input Duty Cycle: 1—49 MHz Allowable Input Duty Cycle: 50—199 MHz Allowable Input Duty Cycle: 200—399 MHz Allowable Input Duty Cycle: 400—499 MHz Allowable Input Duty Cycle: >500 MHz

Speed Grade -3
0.00 0.60 4.6 710 1

-2
0.00 0.60 4.6 710 1 25/75 30/70 35/65 40/60 45/55

-1
0.00 0.60 5.2 645 1

Units
ns ns MHz MHz % % % % %

RES_REL_PULSE_MIN

Minimum Pulse Width for RST and REL

5

5

5

ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

DCM Switching Characteristics
Table 76: Operating Frequency Ranges for DCM in Maximum Speed (MS) Mode
Symbol
Outputs Clocks (Low Frequency Mode) F1XLFMSMIN F1XLFMSMAX F2XLFMSMIN F2XLFMSMAX FDVLFMSMIN FDVLFMSMAX FFXLFMSMIN FFXLFMSMAX Input Clocks (Low Frequency Mode) FDLLLFMSMIN FDLLLFMSMAX FCLKINLFFXMSMIN FCLKINLFFXMSMAX FPSCLKLFMSMIN FPSCLKLFMSMAX Outputs Clocks (High Frequency Mode) F1XHFMSMIN F1XHFMSMAX F2XHFMSMIN F2XHFMSMAX FDVHFMSMIN FDVHFMSMAX FFXHFMSMIN FFXHFMSMAX Input Clocks (High Frequency Mode) FDLLHFMSMIN FDLLHFMSMAX FCLKINHFFXMSMIN FCLKINHFFXMSMAX FPSCLKHFMSMIN FPSCLKHFMSMAX PSCLK CLKIN (using DFS outputs only)(2, 3, 4) CLKIN (using DLL outputs)(1, 3, 4) 120.00 550.00 25.00 400.00 1.00 550.00 120.00 500.00 25.00 375.00 1.00 500.00 120.00 450.00 25.00 350.00 1.00 450.00 MHz MHz MHz MHz KHz MHz CLKFX, CLKFX180 CLKDV CLK2X, CLK2X180 CLK0, CLK90, CLK180, CLK270 120.00 550.00 240.00 550.00 7.5 366.67 140.00 400.00 120.00 500.00 240.00 500.00 7.5 333.34 140.00 375.00 120.00 450.00 240.00 450.00 7.5 300.00 140.00 350.00 MHz MHz MHz MHz MHz MHz MHz MHz PSCLK CLKIN (using DFS outputs only)(2, 3, 4) CLKIN (using DLL outputs)(1, 3, 4) 32.00 150.00 1.00 180.00 1.00 550.00 32.00 135.00 1.00 160.00 1.00 500.00 32.00 120.00 1.00 140.00 1.00 450.00 MHz MHz MHz MHz KHz MHz CLKFX, CLKFX180 CLKDV CLK2X, CLK2X180 CLK0, CLK90, CLK180, CLK270 32.00 150.00 64.00 300.00 2.0 100.00 32.00 180.00 32.00 135.00 64.00 270.00 2.0 90.00 32.00 160.00 32.00 120.00 64.00 240.00 2.0 80.00 32.00 140.00 MHz MHz MHz MHz MHz MHz MHz MHz

Description

Speed Grade -3 -2 -1

Units

Notes: 1. DLL outputs are used in these instances to describe the outputs: CLK0, CLK90, CLK180, CLK270, CLK2X, CLK2X180, and CLKDV. 2. DFS outputs are used in these instances to describe the outputs: CLKFX and CLKFX180. 3. When using the DCMs CLKIN_DIVIDE_BY_2 attribute these values should be doubled. Other resources can limit the maximum input frequency. 4. When using a CLKIN frequency > 400 MHz and the DCMs CLKIN_DIVIDE_BY_2 attribute, the CLKIN duty cycle must be within ±5% (45/55 to 55/45).

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 77: Operating Frequency Ranges for DCM in Maximum Range (MR) Mode
Symbol
Outputs Clocks (Low Frequency Mode) F1XMRMIN F1XMRMAX F2XMRMIN F2XMRMAX FDLLMRMIN FDLLMRMAX FFXMRMIN FFXMRMAX Input Clocks (Low Frequency Mode) FCLKINDLLMRMIN FCLKINDLLMRMAX FCLKINFXMRMIN FCLKINFXMRMAX FPSCLKMRMIN FPSCLKMRMAX PSCLK CLKIN (using DFS outputs only)(2, 3, 4) CLKIN (using DLL outputs)(1, 3, 4) 19.00 32.00 1.00 40.00 1.00 300.00 19.00 32.00 1.00 40.00 1.00 270.00 19.00 32.00 1.00 40.00 1.00 240.00 MHz MHz MHz MHz KHz MHz CLKFX, CLKFX180 CLKDV CLK2X, CLK2X180 CLK0, CLK90, CLK180, CLK270 19.00 32.00 38.00 64.00 1.19 21.34 19.00 40.00 19.00 32.00 38.00 64.00 1.19 21.34 19.00 40.00 19.00 32.00 38.00 64.00 1.19 21.34 19.00 40.00 MHz MHz MHz MHz MHz MHz MHz MHz

Description

Speed Grade -3 -2 -1

Units

Notes: 1. DLL Outputs are used in these instances to describe the outputs: CLK0, CLK90, CLK180, CLK270, CLK2X, CLK2X180, and CLKDV. 2. DFS Outputs are used in these instances to describe the outputs: CLKFX and CLKFX180. 3. When using the DCMs CLKIN_DIVIDE_BY_2 attribute these values should be doubled. Other resources can limit the maximum input frequency. 4. When using a CLKIN frequency > 400 MHz and the DCMs CLKIN_DIVIDE_BY_2 attribute, the CLKIN duty cycle must be within ±5% (45/55 to 55/45).

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Table 78: Input Clock Tolerances
Symbol
Duty Cycle Input Tolerance (in %) TDUTYCYCRANGE_1 TDUTYCYCRANGE_1_50 TDUTYCYCRANGE_50_100 TDUTYCYCRANGE_100_200 TDUTYCYCRANGE_200_400 TDUTYCYCRANGE_400 Input Clock Cycle-Cycle Jitter (Low Frequency Mode) TCYCLFDLL TCYCLFFX TCYCHFDLL TCYCHFFX Input Clock Period Jitter (Low Frequency Mode) TPERLFDLL TPERLFFX TPERHFDLL TPERHFFX Feedback Clock Path Delay Variation TCLKFB_DELAY_VAR CLKFB off-chip feedback 1.00 1.00 1.15 ns CLKIN (using DLL outputs)(1) CLKIN (using DFS outputs)(2) 1.00 1.00 1.00 1.00 1.15 1.15 ns ns CLKIN (using DLL outputs)(1) CLKIN (using DFS outputs)(2) PSCLK only PSCLK and CLKIN < 1 MHz 1 - 50 MHz 50 - 100 MHz 100 - 200 MHz 200 - 400 MHz(4) 25 - 75 25 - 75 30 - 70 40 - 60 45 - 55 45 - 55 % % % % % %

Description

Frequency Range

Value

Units

> 400 MHz

Speed Grade -3
300.00 300.00

-2
300.00 300.00

-1
345.00 345.00

Units
ps ps

Input Clock Cycle-Cycle Jitter (High Frequency Mode) CLKIN (using DLL outputs)(1) CLKIN (using DFS outputs)(2) 150.00 150.00 150.00 150.00 173.00 173.00 ps ps

Input Clock Period Jitter (High Frequency Mode) CLKIN (using DLL outputs)(1) CLKIN (using DFS outputs)(2) 1.00 1.00 1.00 1.00 1.15 1.15 ns ns

Notes: 1. DLL Outputs are used in these instances to describe the outputs: CLK0, CLK90, CLK180, CLK270, CLK2X, CLK2X180, and CLKDV. 2. DFS Outputs are used in these instances to describe the outputs: CLKFX and CLKFX180. 3. If both DLL and DFS outputs are used, follow the more restrictive specifications. 4. This duty cycle specification does not apply to the GTP_DUAL to DCM or GTX_DUAL to DCM connection. The GTP transceivers drive the DCMs at the following frequencies: 320 MHz for -1 speed grade devices, 375 MHz for -2 speed grade devices, or 375 MHz for -3 speed grade devices. The GTX transceivers drive the DCMs at the following frequencies: 450 MHz for -1 speed grade devices or 500 MHz for -2 speed grade devices.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Output Clock Jitter
Table 79: Output Clock Jitter
Symbol
Clock Synthesis Period Jitter TPERJITT_0 TPERJITT_90 TPERJITT_180 TPERJITT_270 TPERJITT_2X TPERJITT_DV1 TPERJITT_DV2 TPERJITT_FX CLK0 CLK90 CLK180 CLK270 CLK2X, CLK2X180 CLKDV (integer division) CLKDV (non-integer division) CLKFX, CLKFX180 ±120 ±120 ±120 ±120 ±200 ±150 ±300 Note 1 ±120 ±120 ±120 ±120 ±200 ±150 ±300 Note 1 ±120 ±120 ±120 ±120 ±230 ±180 ±345 Note 1 ps ps ps ps ps ps ps ps

Description

Constraints

Speed Grade -3 -2 -1

Units

Notes: 1. Values for this parameter are available in the Architecture Wizard.

Output Clock Phase Alignment
Table 80: Output Clock Phase Alignment
Symbol
Phase Offset Between CLKIN and CLKFB TIN_FB_OFFSET TOUT_OFFSET_1X TOUT_OFFSET_2X TOUT_OFFSET_FX Duty Cycle Precision(2) TDUTY_CYC_DLL TDUTY_CYC_FX DLL outputs(3) DFS outputs(4) ±150 ±150 ±150 ±150 ±180 ±180 ps ps CLKIN/CLKFB ±50 ±50 ±60 ps Phase Offset Between Any DCM Outputs(1) CLK0, CLK90, CLK180, CLK270 CLK2X, CLK2X180, CLKDV CLKFX, CLKFX180 ±140 ±150 ±160 ±140 ±150 ±160 ±160 ±200 ±220 ps ps ps

Description

Constraints

Speed Grade -3 -2 -1

Units

Notes: 1. All phase offsets are in respect to group CLK1X. 2. CLKOUT_DUTY_CYCLE_DLL applies to the 1X clock outputs (CLK0, CLK90, CLK180, and CLK270) only if DUTY_CYCLE_CORRECTION = TRUE. The duty cycle distortion includes the global clock tree (BUFG). 3. DLL Outputs are used in these instances to describe the outputs: CLK0, CLK90, CLK180, CLK270, CLK2X, CLK2X180, and CLKDV. 4. DFS Outputs are used in these instances to describe the outputs: CLKFX and CLKFX180.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 81: Miscellaneous Timing Parameters
Symbol
Time Required to Achieve LOCK TDLL_240 TDLL_120_240 TDLL_60_120 TDLL_50_60 TDLL_40_50 TDLL_30_40 TDLL_24_30 TDLL_30 TFX_MIN TFX_MAX TDLL_FINE_SHIFT Fine Phase Shifting TRANGE_MS TRANGE_MR Delay Lines TTAP_MS_MIN TTAP_MS_MAX TTAP_MR_MIN TTAP_MR_MAX Tap delay resolution (Min) in maximum speed mode Tap delay resolution (Max) in maximum speed mode Tap delay resolution (Min) in maximum range mode Tap delay resolution (Max) in maximum range mode 7.00 30.00 10.00 40.00 7.00 30.00 10.00 40.00 7.00 30.00 10.00 40.00 ps ps ps ps Absolute shifting range in maximum speed mode Absolute shifting range in maximum range mode 7.00 10.00 7.00 10.00 7.00 10.00 ns ns Multiplication factor for DLL lock time with Fine Shift DLL output – Frequency range > 240 MHz (1) DLL output – Frequency range 120 - 240 MHz DLL output – Frequency range 60 - 120 MHz DLL output – Frequency range 50 - 60 MHz(1)
(1) (1) (1) (1)

Description

Speed Grade -3 -2 -1 Units

80.00 250.00 900.00 1300.00 2000.00 3600.00 5000.00 5000.00 10.00 10.00 2.00

80.00 250.00 900.00 1300.00 2000.00 3600.00 5000.00 5000.00 10.00 10.00 2.00

80.00 250.00 900.00 1300.00 2000.00 3600.00 5000.00 5000.00 10.00 10.00 2.00

?s ?s ?s ?s ?s ?s ?s ?s ms ms

DLL output – Frequency range 40 - 50 MHz DLL output – Frequency range 30 - 40 MHz DLL output – Frequency range 24 - 30 outputs(2)
(1)

MHz(1)

DLL output – Frequency range < 30 MHz DFS

Notes: 1. DLL Outputs are used in these instances to describe the outputs: CLK0, CLK90, CLK180, CLK270, CLK2X, CLK2X180, and CLKDV. 2. DFS Outputs are used in these instances to describe the outputs: CLKFX and CLKFX180.

Table 82: Frequency Synthesis
Attribute
CLKFX_MULTIPLY CLKFX_DIVIDE

Min
2 1

Max
33 32

Table 83: DCM Switching Characteristics
Symbol
TDMCCK_PSEN/ TDMCKC_PSEN TDMCCK_PSINCDEC/ TDMCKC_PSINCDEC TDMCKO_PSDONE

Description
PSEN Setup/Hold PSINCDEC Setup/Hold Clock to out of PSDONE

Speed Grade -3
1.20 0.00 1.20 0.00 1.00

-2
1.35 0.00 1.35 0.00 1.12

-1
1.56 0.00 1.56 0.00 1.30

Units
ns ns ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Virtex-5 Device Pin-to-Pin Output Parameter Guidelines
All devices are 100% functionally tested. The representative values for typical pin locations and normal clock loading are listed in Table 84. Values are expressed in nanoseconds unless otherwise noted. Table 84: Global Clock Input to Output Delay Without DCM or PLL
Symbol Description Device Speed Grade -3 -2 -1 Units

LVCMOS25 Global Clock Input to Output Delay using Output Flip-Flop, 12mA, Fast Slew Rate, without DCM or PLL TICKOF Global Clock and OUTFF without DCM or PLL XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T N/A 5.54 5.54 5.59 5.59 5.78 5.78 5.84 5.84 6.16 6.16 N/A N/A N/A N/A 5.72 5.77 N/A N/A N/A N/A 5.73 5.82 6.21 6.28 N/A 5.98 6.04 6.04 6.09 6.09 6.28 6.28 6.35 6.35 6.68 6.68 6.99 6.99 7.17 7.17 6.22 6.27 6.59 7.24 6.58 6.88 6.21 6.33 6.73 6.80 7.17 6.69 6.73 6.73 6.79 6.79 6.99 6.99 7.06 7.06 7.52 7.52 7.71 7.71 7.91 7.91 6.92 6.97 7.30 7.98 7.30 7.61 6.89 7.04 7.44 7.52 7.91 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

Notes: 1. Listed above are representative values where one global clock input drives one vertical clock line in each accessible column, and where all accessible IOB and CLB flip-flops are clocked by the global clock net.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 85: Global Clock Input to Output Delay With DCM in System-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

LVCMOS25 Global Clock Input to Output Delay using Output Flip-Flop, 12mA, Fast Slew Rate, with DCM in System-Synchronous Mode. TICKOFDCM Global Clock and OUTFF with DCM XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T N/A 2.33 2.33 2.35 2.35 2.41 2.41 2.46 2.46 2.51 2.51 N/A N/A N/A N/A 2.44 2.46 N/A N/A N/A N/A 2.55 2.48 2.33 2.40 N/A 2.53 2.56 2.56 2.58 2.58 2.63 2.63 2.69 2.69 2.74 2.74 2.83 2.83 3.00 3.00 2.67 2.69 2.64 3.00 2.77 2.78 2.82 2.74 2.59 2.67 2.87 2.93 2.93 2.93 2.95 2.95 3.00 3.00 3.06 3.06 3.10 3.10 3.18 3.18 3.37 3.37 3.03 3.05 3.00 3.36 3.15 3.15 3.20 3.12 3.00 3.07 3.27 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

Notes: 1. Listed above are representative values where one global clock input drives one vertical clock line in each accessible column, and where all accessible IOB and CLB flip-flops are clocked by the global clock net. 2. DCM output jitter is already included in the timing calculation.

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Table 86: Global Clock Input to Output Delay With DCM in Source-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

LVCMOS25 Global Clock Input to Output Delay using Output Flip-Flop, 12mA, Fast Slew Rate, with DCM in Source-Synchronous Mode. TICKOFDCM_0 Global Clock and OUTFF with DCM XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T N/A 3.45 3.45 3.47 3.47 3.60 3.60 3.65 3.65 3.91 3.91 N/A N/A N/A N/A 3.63 3.65 N/A N/A N/A N/A 3.74 3.67 3.82 3.99 N/A 3.74 3.71 3.71 3.73 3.73 3.86 3.86 3.92 3.92 4.18 4.18 4.41 4.41 4.58 4.58 3.89 3.91 4.16 4.65 4.07 4.30 4.05 3.96 4.10 4.29 4.60 4.20 4.15 4.15 4.17 4.17 4.29 4.29 4.36 4.36 4.62 4.62 4.85 4.85 5.04 5.04 4.33 4.35 4.59 5.11 4.51 4.74 4.50 4.41 4.53 4.74 5.03 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

Notes: 1. Listed above are representative values where one global clock input drives one vertical clock line in each accessible column, and where all accessible IOB and CLB flip-flops are clocked by the global clock net. 2. DCM output jitter is already included in the timing calculation.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 87: Global Clock Input to Output Delay With PLL in System-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

LVCMOS25 Global Clock Input to Output Delay using Output Flip-Flop, 12mA, Fast Slew Rate, with PLL in System-Synchronous Mode. TICKOFPLL Global Clock and OUTFF with PLL XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T N/A 2.03 2.03 2.20 2.20 2.21 2.21 2.25 2.25 2.34 2.34 N/A N/A N/A N/A 2.02 2.12 N/A N/A N/A N/A 2.44 2.48 2.41 2.48 N/A 2.36 2.30 2.30 2.47 2.47 2.49 2.49 2.53 2.53 2.60 2.60 2.74 2.74 2.89 2.89 2.28 2.36 2.29 2.96 2.54 2.67 2.67 2.71 2.70 2.75 2.96 2.73 2.70 2.70 2.86 2.86 2.88 2.88 2.92 2.92 3.01 3.01 3.12 3.12 3.27 3.27 2.62 2.76 2.69 3.34 2.92 3.04 3.06 3.10 3.10 3.17 3.35 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

Notes: 1. Listed above are representative values where one global clock input drives one vertical clock line in each accessible column, and where all accessible IOB and CLB flip-flops are clocked by the global clock net. 2. PLL output jitter is included in the timing calculation.

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Table 88: Global Clock Input to Output Delay With PLL in Source-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

LVCMOS25 Global Clock Input to Output Delay using Output Flip-Flop, 12mA, Fast Slew Rate, with PLL in Source-Synchronous Mode. TICKOFPLL_0 Global Clock and OUTFF with PLL XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T N/A 3.96 3.96 4.05 4.05 4.07 4.07 4.11 4.11 4.31 4.31 N/A N/A N/A N/A 4.19 4.20 N/A N/A N/A N/A 4.23 4.22 4.35 4.49 N/A 4.31 4.32 4.32 4.40 4.40 4.40 4.40 4.44 4.44 4.66 4.66 4.85 4.85 5.00 5.00 4.54 4.54 4.68 5.07 4.51 4.71 4.56 4.54 4.70 4.86 5.04 4.88 4.82 4.82 4.91 4.91 4.88 4.88 4.92 4.92 5.16 5.16 5.29 5.29 5.44 5.44 5.03 5.02 5.14 5.51 4.95 5.14 5.04 5.02 5.19 5.40 5.55 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

Notes: 1. Listed above are representative values where one global clock input drives one vertical clock line in each accessible column, and where all accessible IOB and CLB flip-flops are clocked by the global clock net. 2. PLL output jitter is included in the timing calculation.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 89: Global Clock Input to Output Delay With DCM and PLL in System-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

LVCMOS25 Global Clock Input to Output Delay using Output Flip-Flop, 12mA, Fast Slew Rate, with DCM and PLL in System-Synchronous Mode. TICKOFDCM_PLL Global Clock and OUTFF with DCM and PLL XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T N/A 2.25 2.25 2.27 2.27 2.33 2.33 2.38 2.38 2.43 2.43 N/A N/A N/A N/A 2.36 2.38 N/A N/A N/A N/A 2.47 2.40 2.25 2.32 N/A 2.45 2.48 2.48 2.50 2.50 2.55 2.55 2.61 2.61 2.66 2.66 2.75 2.75 2.92 2.92 2.59 2.61 2.56 2.92 2.69 2.70 2.74 2.66 2.51 2.59 2.79 2.84 2.84 2.84 2.86 2.86 2.91 2.91 2.97 2.97 3.01 3.01 3.09 3.09 3.28 3.28 2.94 2.96 2.91 3.27 3.06 3.06 3.11 3.03 2.91 2.98 3.18 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

Notes: 1. Listed above are representative values where one global clock input drives one vertical clock line in each accessible column, and where all accessible IOB and CLB flip-flops are clocked by the global clock net. 2. DCM and PLL output jitter are already included in the timing calculation.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 90: Global Clock Input to Output Delay With DCM and PLL in Source-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

LVCMOS25 Global Clock Input to Output Delay using Output Flip-Flop, 12mA, Fast Slew Rate, with DCM and PLL in Source-Synchronous Mode. TICKOFDCM0_PLL Global Clock and OUTFF with DCM and PLL XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T N/A 3.37 3.37 3.39 3.39 3.52 3.52 3.57 3.57 3.83 3.83 N/A N/A N/A N/A 3.55 3.57 N/A N/A N/A N/A 3.66 3.59 3.74 3.91 N/A 3.66 3.63 3.63 3.65 3.65 3.78 3.78 3.84 3.84 4.10 4.10 4.33 4.33 4.50 4.50 3.81 3.83 4.08 4.57 3.99 4.22 3.97 3.88 4.02 4.21 4.52 4.11 4.06 4.06 4.08 4.08 4.20 4.20 4.27 4.27 4.53 4.53 4.76 4.76 4.95 4.95 4.24 4.26 4.50 5.02 4.42 4.65 4.41 4.32 4.44 4.65 4.94 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

Notes: 1. Listed above are representative values where one global clock input drives one vertical clock line in each accessible column, and where all accessible IOB and CLB flip-flops are clocked by the global clock net. 2. DCM and PLL output jitter are already included in the timing calculation.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Virtex-5 Device Pin-to-Pin Input Parameter Guidelines
All devices are 100% functionally tested. The representative values for typical pin locations and normal clock loading are listed in Table 91. Values are expressed in nanoseconds unless otherwise noted. Table 91: Global Clock Setup and Hold Without DCM or PLL
Symbol Description Device Speed Grade -3 -2 -1 Units

Input Setup and Hold Time Relative to Global Clock Input Signal for LVCMOS25 Standard.(1) TPSFD/ TPHFD Full Delay (Legacy Delay or Default Delay) Global Clock and IFF(2) without DCM or PLL XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T N/A 1.49 –0.35 1.49 –0.35 1.48 –0.30 1.48 –0.30 1.75 –0.49 1.75 –0.49 1.74 –0.43 1.73 –0.43 2.06 –0.50 2.06 –0.50 N/A N/A N/A N/A 1.47 –0.16 1.62 –0.31 N/A N/A 1.63 –0.41 1.60 –0.35 1.60 –0.35 1.59 –0.30 1.59 –0.30 1.89 –0.49 1.89 –0.49 1.88 –0.43 1.88 –0.43 2.36 –0.50 2.36 –0.50 2.57 –0.74 2.57 –0.74 2.55 –0.56 2.57 –0.56 1.59 –0.16 1.74 –0.31 2.10 –0.44 2.01 0.18 1.86 –0.41 1.77 –0.35 1.76 –0.35 1.76 –0.30 1.76 –0.30 2.09 –0.49 2.09 –0.49 2.09 –0.43 2.09 –0.43 2.78 –0.49 2.78 –0.49 2.86 –0.74 2.86 –0.74 2.85 –0.56 2.86 –0.56 1.76 –0.16 1.93 –0.31 2.32 –0.44 2.28 0.18 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 91: Global Clock Setup and Hold Without DCM or PLL (Cont’d)
Symbol
TPSFD/ TPHFD

Description
Full Delay (Legacy Delay or Default Delay) Global Clock and IFF(2) without DCM or PLL

Device
XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade -3
N/A N/A 2.05 –0.27 1.85 –0.30 2.20 –0.42 2.33 –0.55 N/A

-2
2.35 –0.82 2.59 –0.85 2.25 –0.27 2.06 –0.30 2.38 –0.42 2.59 –0.54 2.52 –0.43

-1
2.59 –0.82 2.87 –0.85 2.57 –0.27 2.35 –0.30 2.66 –0.42 2.95 –0.54 2.81 –0.43

Units
ns ns ns ns ns ns ns

Notes: 1. Setup and Hold times are measured over worst case conditions (process, voltage, temperature). Setup time is measured relative to the Global Clock input signal using the slowest process, highest temperature, and lowest voltage. Hold time is measured relative to the Global Clock input signal using the fastest process, lowest temperature, and highest voltage. 2. IFF = Input Flip-Flop or Latch 3. A Zero "0" Hold Time listing indicates no hold time or a negative hold time. Negative values can not be guaranteed "best-case", but if a "0" is listed, there is no positive hold time.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 92: Global Clock Setup and Hold With DCM in System-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

Input Setup and Hold Time Relative to Global Clock Input Signal for LVCMOS25 Standard.(1) TPSDCM/ TPHDCM No Delay Global Clock and IFF(2) with DCM in System-Synchronous Mode XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T N/A 1.53 –0.50 1.53 –0.50 1.52 –0.48 1.52 –0.48 1.58 –0.43 1.57 –0.43 1.58 –0.37 1.58 –0.37 2.02 –0.32 2.02 –0.32 N/A N/A N/A N/A 1.60 –0.39 1.58 –0.37 N/A N/A 1.47 –0.56 1.70 –0.50 1.70 –0.50 1.68 –0.48 1.68 –0.48 1.76 –0.43 1.76 –0.43 1.76 –0.37 1.76 –0.37 2.16 –0.32 2.16 –0.32 2.17 –0.27 2.17 –0.27 2.17 –0.10 2.17 –0.10 1.78 –0.39 1.76 –0.37 2.34 –0.41 2.25 –0.10 1.59 –0.56 1.88 –0.50 1.88 –0.50 1.86 –0.48 1.86 –0.48 1.95 –0.43 1.95 –0.43 1.95 –0.37 1.95 –0.37 2.38 –0.32 2.38 –0.32 2.44 –0.27 2.44 –0.27 2.44 –0.10 2.44 –0.10 1.98 –0.39 1.95 –0.37 2.35 –0.41 2.54 –0.10 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

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Table 92: Global Clock Setup and Hold With DCM in System-Synchronous Mode (Cont’d)
Symbol
TPSDCM/ TPHDCM

Description
No Delay Global Clock and IFF(2) with DCM in System-Synchronous Mode

Device
XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade -3
N/A N/A 1.80 –0.28 1.76 –0.36 2.27 –0.51 2.33 –0.43 N/A

-2
1.85 –0.33 2.11 –0.32 1.89 –0.28 1.86 –0.36 2.35 –0.51 2.48 –0.43 2.30 –0.23

-1
2.05 –0.33 2.35 –0.32 2.02 –0.28 1.98 –0.36 2.49 –0.49 2.72 –0.42 2.43 –0.21

Units
ns ns ns ns ns ns ns

Notes: 1. Setup and Hold times are measured over worst case conditions (process, voltage, temperature). Setup time is measured relative to the Global Clock input signal using the slowest process, highest temperature, and lowest voltage. Hold time is measured relative to the Global Clock input signal using the fastest process, lowest temperature, and highest voltage. These measurements include DCM CLK0 jitter. 2. IFF = Input Flip-Flop or Latch 3. Use IBIS to determine any duty-cycle distortion incurred using various standards.

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Table 93: Global Clock Setup and Hold With DCM in Source-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

Input Setup and Hold Time Relative to Global Clock Input Signal for LVCMOS25 Standard.(1) TPSDCM0/ TPHDCM0 No Delay Global Clock and IFF(2) with DCM in Source-Synchronous Mode XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T N/A 0.27 0.62 0.27 0.62 0.26 0.64 0.25 0.64 0.23 0.76 0.23 0.76 0.23 0.82 0.23 0.82 0.12 1.08 0.12 1.08 N/A N/A N/A N/A 0.25 0.80 0.24 0.82 N/A N/A 0.12 0.64 0.27 0.62 0.27 0.62 0.26 0.64 0.26 0.64 0.24 0.76 0.24 0.76 0.24 0.82 0.24 0.82 0.14 1.08 0.14 1.08 0.21 1.31 0.21 1.31 0.21 1.48 0.21 1.48 0.27 0.80 0.25 0.82 0.24 1.06 0.20 1.55 0.14 0.72 0.27 0.66 0.27 0.66 0.26 0.68 0.26 0.68 0.24 0.80 0.24 0.80 0.24 0.87 0.24 0.87 0.16 1.13 0.16 1.13 0.22 1.36 0.22 1.36 0.22 1.55 0.22 1.55 0.27 0.84 0.25 0.86 0.24 1.11 0.21 1.62 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 93: Global Clock Setup and Hold With DCM in Source-Synchronous Mode (Cont’d)
Symbol Description Device
XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade -3
N/A N/A 0.16 0.91 0.13 0.83 0.21 0.98 0.19 1.15 N/A

-2
0.25 0.97 0.24 1.20 0.18 0.95 0.14 0.86 0.21 1.00 0.21 1.19 0.14 1.50

-1
0.25 1.03 0.24 1.26 0.19 1.01 0.14 0.92 0.21 1.05 0.24 1.25 0.16 1.55

Units
ns ns ns ns ns ns ns

TPSDCM0/ TPHDCM0 No Delay Global Clock and IFF(2) with DCM in Source-Synchronous Mode

Notes: 1. Setup and Hold times are measured over worst case conditions (process, voltage, temperature). Setup time is measured relative to the Global Clock input signal using the slowest process, highest temperature, and lowest voltage. Hold time is measured relative to the Global Clock input signal using the fastest process, lowest temperature, and highest voltage. These measurements include DCM CLK0 jitter. 2. IFF = Input Flip-Flop or Latch 3. Use IBIS to determine any duty-cycle distortion incurred using various standards.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 94: Global Clock Setup and Hold With PLL in System-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

Input Setup and Hold Time Relative to Global Clock Input Signal for LVCMOS25 Standard.(1) TPSPLL/ TPHPLL No Delay Global Clock and IFF(2) with PLL in System-Synchronous Mode XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T N/A 1.53 –0.80 1.52 –0.80 1.50 –0.64 1.50 –0.64 1.83 –0.63 1.83 –0.63 1.83 –0.58 1.83 –0.58 1.91 –0.49 1.91 –0.49 N/A N/A N/A N/A 1.82 –0.82 1.96 –0.72 N/A N/A 1.74 –0.82 1.68 –0.80 1.68 –0.80 1.65 –0.63 1.65 –0.63 1.95 –0.62 1.95 –0.62 1.96 –0.57 1.96 –0.57 2.09 –0.49 2.09 –0.49 1.93 –0.36 1.93 –0.36 2.09 –0.21 2.12 –0.21 2.02 –0.82 2.07 –0.72 2.17 –0.80 2.11 –0.14 2.02 –0.82 1.90 –0.79 1.90 –0.79 1.89 –0.62 1.89 –0.62 2.09 –0.61 2.09 –0.61 2.10 –0.57 2.10 –0.57 2.37 –0.47 2.37 –0.47 2.09 –0.36 2.09 –0.36 2.33 –0.21 2.34 –0.21 2.33 –0.82 2.20 –0.72 2.35 –0.79 2.33 –0.14 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 94: Global Clock Setup and Hold With PLL in System-Synchronous Mode (Cont’d)
Symbol
TPSPLL/ TPHPLL

Description
No Delay Global Clock and IFF(2) with PLL in System-Synchronous Mode

Device
XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade -3
N/A N/A 1.82 –0.40 1.79 –0.30 1.81 –0.43 1.79 –0.29 N/A

-2
1.82 –0.56 2.05 –0.43 1.93 –0.40 1.90 –0.30 1.91 –0.40 1.95 –0.28 2.06 –0.14

-1
1.95 –0.56 2.26 –0.43 2.09 –0.40 2.07 –0.30 2.09 –0.38 2.14 –0.24 2.29 –0.14

Units
ns ns ns ns ns ns ns

Notes: 1. Setup and Hold times are measured over worst case conditions (process, voltage, temperature). Setup time is measured relative to the Global Clock input signal using the slowest process, highest temperature, and lowest voltage. Hold time is measured relative to the Global Clock input signal using the fastest process, lowest temperature, and highest voltage. These measurements include PLL CLKOUT0 jitter. 2. IFF = Input Flip-Flop or Latch 3. Use IBIS to determine any duty-cycle distortion incurred using various standards.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 95: Global Clock Setup and Hold With PLL in Source-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

Input Setup and Hold Time Relative to Global Clock Input Signal for LVCMOS25 Standard.(1) TPSPLL0/ TPHPLL0 No Delay Global Clock and IFF(2) with PLL in Source-Synchronous Mode XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T N/A –0.33 1.13 –0.33 1.13 –0.24 1.21 –0.24 1.21 –0.25 1.23 –0.25 1.23 –0.26 1.27 –0.26 1.27 –0.15 1.48 –0.16 1.48 N/A N/A N/A N/A –0.19 1.36 –0.27 1.37 N/A N/A –0.26 1.21 –0.33 1.22 –0.33 1.22 –0.24 1.30 –0.24 1.30 –0.23 1.30 –0.23 1.30 –0.24 1.34 –0.25 1.34 –0.12 1.56 –0.12 1.56 –0.34 1.75 –0.34 1.75 –0.34 1.90 –0.34 1.90 –0.18 1.44 –0.26 1.44 –0.26 1.58 –0.35 1.97 –0.25 1.40 –0.33 1.34 –0.33 1.34 –0.23 1.42 –0.23 1.42 –0.22 1.39 –0.22 1.39 –0.23 1.43 –0.23 1.43 –0.10 1.67 –0.10 1.67 –0.30 1.80 –0.31 1.80 –0.30 1.95 –0.30 1.95 –0.16 1.54 –0.25 1.53 –0.24 1.65 –0.31 2.02 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

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Table 95: Global Clock Setup and Hold With PLL in Source-Synchronous Mode (Cont’d)
Symbol
TPSPLL0/ TPHPLL0

Description
No Delay Global Clock and IFF(2) with PLL in Source-Synchronous Mode

Device
XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade -3
N/A N/A –0.10 1.40 –0.12 1.38 –0.18 1.51 –0.12 1.66 N/A

-2
–0.31 1.41 –0.31 1.61 –0.09 1.46 –0.10 1.44 –0.18 1.60 –0.11 1.76 –0.12 1.94

-1
–0.29 1.47 –0.29 1.66 –0.08 1.55 –0.09 1.53 –0.18 1.71 –0.09 1.92 –0.10 2.06

Units
ns ns ns ns ns ns ns

Notes: 1. Setup and Hold times are measured over worst case conditions (process, voltage, temperature). Setup time is measured relative to the Global Clock input signal using the slowest process, highest temperature, and lowest voltage. Hold time is measured relative to the Global Clock input signal using the fastest process, lowest temperature, and highest voltage. These measurements include PLL CLKOUT0 jitter. 2. IFF = Input Flip-Flop or Latch 3. Use IBIS to determine any duty-cycle distortion incurred using various standards.

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Table 96: Global Clock Setup and Hold With DCM and PLL in System-Synchronous Mode
Symbol Description Device Speed Grade -3 -2 -1 Units

Input Setup and Hold Time Relative to Global Clock Input Signal for LVCMOS25 Standard.(1) TPSDCMPLL/ TPHDCMPLL No Delay Global Clock and IFF(2) with DCM and PLL in System-Synchronous Mode XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T N/A 1.72 –0.58 1.72 –0.58 1.69 –0.56 1.69 –0.56 1.74 –0.51 1.74 –0.51 1.73 –0.45 1.73 –0.45 2.14 –0.40 2.14 –0.40 N/A N/A N/A N/A 1.78 –0.47 1.76 –0.45 N/A N/A 1.67 –0.64 1.89 –0.58 1.89 –0.58 1.86 –0.56 1.86 –0.56 1.93 –0.51 1.93 –0.51 1.93 –0.45 1.93 –0.45 2.31 –0.40 2.31 –0.40 2.32 –0.35 2.32 –0.35 2.29 –0.18 2.32 –0.18 1.97 –0.47 1.94 –0.45 2.51 –0.49 2.39 –0.18 1.78 –0.64 2.07 –0.58 2.06 –0.58 2.04 –0.56 2.04 –0.56 2.13 –0.51 2.13 –0.51 2.13 –0.45 2.13 –0.45 2.55 –0.40 2.55 –0.40 2.61 –0.35 2.61 –0.35 2.60 –0.18 2.61 –0.18 2.16 –0.47 2.14 –0.45 2.53 –0.49 2.70 –0.18 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

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Table 96: Global Clock Setup and Hold With DCM and PLL in System-Synchronous Mode (Cont’d)
Symbol
TPSDCMPLL/ TPHDCMPLL

Description
No Delay Global Clock and IFF(2) with DCM and PLL in System-Synchronous Mode

Device
XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade -3
N/A N/A 1.97 –0.36 1.92 –0.44 2.40 –0.59 2.46 –0.51 N/A

-2
2.00 –0.41 2.25 –0.40 2.08 –0.36 2.03 –0.44 2.51 –0.59 2.64 –0.51 2.44 –0.31

-1
2.22 –0.41 2.51 –0.40 2.21 –0.36 2.16 –0.44 2.66 –0.58 2.89 –0.51 2.59 –0.30

Units
ns ns ns ns ns ns ns

Notes: 1. Setup and Hold times are measured over worst case conditions (process, voltage, temperature). Setup time is measured relative to the Global Clock input signal using the slowest process, highest temperature, and lowest voltage. Hold time is measured relative to the Global Clock input signal using the fastest process, lowest temperature, and highest voltage. These measurements include CMT jitter; DCM CLK0 driving PLL, PLL CLKOUT0 driving BUFG. 2. IFF = Input Flip-Flop or Latch 3. Use IBIS to determine any duty-cycle distortion incurred using various standards.

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Table 97: Global Clock Setup and Hold With DCM and PLL in Source-Synchronous Mode
Symbol Description Device Speed Grade
-3 -2 -1

Units

Example Data Input Set-Up and Hold Times Relative to a Forwarded Clock Input Pin,(1) Using DCM, PLL, and Global Clock Buffer. For situations where clock and data inputs conform to different standards, adjust the setup and hold values accordingly using the values shown in IOB Switching Characteristics, page 32. TPSDCMPLL_0/ TPHDCMPLL_0 No Delay Global Clock and IFF (2) with DCM and PLL in Source-Synchronous Mode XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T N/A 0.45 0.54 0.45 0.54 0.43 0.56 0.43 0.56 0.40 0.68 0.39 0.68 0.38 0.74 0.38 0.74 0.24 1.00 0.24 1.00 N/A N/A N/A N/A 0.44 0.72 0.41 0.74 N/A N/A 0.32 0.56 0.46 0.54 0.46 0.54 0.44 0.56 0.44 0.56 0.42 0.68 0.42 0.68 0.41 0.74 0.41 0.74 0.29 1.00 0.29 1.00 0.36 1.23 0.36 1.23 0.34 1.40 0.36 1.40 0.46 0.72 0.43 0.74 0.41 0.98 0.35 1.47 0.33 0.63 0.46 0.57 0.46 0.57 0.44 0.59 0.44 0.59 0.42 0.71 0.42 0.71 0.41 0.78 0.41 0.78 0.33 1.04 0.33 1.04 0.38 1.27 0.38 1.27 0.37 1.46 0.38 1.46 0.46 0.75 0.43 0.77 0.41 1.02 0.38 1.53 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

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Table 97: Global Clock Setup and Hold With DCM and PLL in Source-Synchronous Mode
Symbol
TPSDCMPLL_0/ TPHDCMPLL_0

Description
No Delay Global Clock and IFF (2) with DCM and PLL in Source-Synchronous Mode

Device
XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade
-3 N/A N/A 0.34 0.83 0.29 0.75 0.35 0.90 0.33 1.07 N/A -2 0.40 0.89 0.38 1.12 0.36 0.87 0.32 0.78 0.35 0.92 0.37 1.11 0.29 1.42 -1 0.40 0.94 0.39 1.17 0.37 0.92 0.32 0.83 0.35 0.96 0.41 1.16 0.33 1.46

Units
ns ns ns ns ns ns ns

Notes: 1. Setup and Hold times are measured over worst case conditions (process, voltage, temperature). Setup time is measured relative to the Global Clock input signal using the slowest process, highest temperature, and lowest voltage. Hold time is measured relative to the Global Clock input signal using the fastest process, lowest temperature, and highest voltage. The timing values were measured using the fine-phase adjustment feature of the DCM. These measurements include CMT jitter; DCM CLK0 driving PLL, PLL CLKOUT0 driving BUFG. Package skew is not included in these measurements. 2. IFF = Input Flip-Flop

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Source-Synchronous Switching Characteristics
The parameters in this section provide the necessary values for calculating timing budgets for Virtex-5 FPGA source-synchronous transmitter and receiver data-valid windows. Table 98: Duty Cycle Distortion and Clock-Tree Skew
Symbol
TDCD_CLK TCKSKEW

Description
Global Clock Tree Duty Cycle Distortion (1) Global Clock Tree Skew
(2)

Device
All XC5VLX20T XC5VLX30 XC5VLX30T XC5VLX50 XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110 XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Speed Grade -3
0.12 N/A 0.21 0.21 0.26 0.26 0.42 0.42 0.48 0.48 0.82 0.82 N/A N/A N/A N/A 0.38 0.43 N/A N/A N/A N/A 0.34 0.41 0.82 0.82 N/A 0.10 0.07 0.25

-2
0.12 0.24 0.22 0.22 0.27 0.27 0.43 0.43 0.50 0.50 0.85 0.85 1.07 1.07 1.25 1.25 0.39 0.44 0.72 1.32 0.70 0.97 0.35 0.42 0.84 0.84 1.24 0.10 0.07 0.25

-1
0.12 0.25 0.22 0.22 0.28 0.28 0.45 0.45 0.51 0.51 0.88 0.88 1.10 1.10 1.29 1.29 0.39 0.45 0.74 1.36 0.73 1.00 0.35 0.43 0.86 0.86 1.29 0.10 0.08 0.25

Units
ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns

TDCD_BUFIO TBUFIOSKEW TDCD_BUFR

I/O clock tree duty cycle distortion I/O clock tree skew across one clock region Regional clock tree duty cycle distortion

All All All

Notes: 1. These parameters represent the worst-case duty cycle distortion observable at the pins of the device using LVDS output buffers. For cases where other I/O standards are used, IBIS can be used to calculate any additional duty cycle distortion that might be caused by asymmetrical rise/fall times. 2. The TCKSKEW value represents the worst-case clock-tree skew observable between sequential I/O elements. Significantly less clock-tree skew exists for I/O registers that are close to each other and fed by the same or adjacent clock-tree branches. Use the Xilinx FPGA_Editor and Timing Analyzer tools to evaluate clock skew specific to your application.

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Table 99: Package Skew
Symbol
TPKGSKEW Package

Description
Skew(1)

Device
XC5VLX20T XC5VLX30 XC5VLX30T

Package
FF323 FF324 FF676 FF323 FF665 FF324 FF676 FF1153 FF665 FF1136 FF676 FF1153 FF1136 FF676 FF1153 FF1760 FF1136 FF1738 FF1153 FF1760 FF1136 FF1738 FF1760 FF1738 FF1760 FF1738 FF665 FF665 FF1136 FF1136 FF1738 FF1156 FF1759 FF1759 FF665 FF665 FF1136 FF1136 FF1738 FF1738 FF1738

Value
131 80 142 127 93 80 142 175 93 162 142 174 164 142 173 190 163 171 161 181 147 174 178 156 177 155 103 103 157 176 161 157 157 102 102 153 144 172 181 164

Units
ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps ps

XC5VLX50

XC5VLX50T XC5VLX85 XC5VLX85T XC5VLX110

XC5VLX110T XC5VLX155 XC5VLX155T XC5VLX220 XC5VLX220T XC5VLX330 XC5VLX330T XC5VSX35T XC5VSX50T XC5VSX95T XC5VSX240T XC5VTX150T XC5VTX150T XC5VTX240T XC5VFX30T XC5VFX70T XC5VFX100T XC5VFX130T XC5VFX200T

Notes: 1. These values represent the worst-case skew between any two SelectIO resources in the package: shortest flight time to longest flight time from Pad to Ball (7.0 ps per mm). 2. Package trace length information is available for these device/package combinations. This information can be used to deskew the package.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Table 100: Sample Window
Symbol
TSAMP TSAMP_BUFIO

Description
Sampling Error at Receiver Pins(1) Sampling Error at Receiver Pins using BUFIO(2)

Device
All All

Speed Grade -3
450 350

-2
500 400

-1
550 450

Units
ps ps

Notes: 1. This parameter indicates the total sampling error of Virtex-5 FPGA DDR input registers across voltage, temperature, and process. The characterization methodology uses the DCM to capture the DDR input registers’ edges of operation. These measurements include: - CLK0 DCM jitter - DCM accuracy (phase offset) - DCM phase shift resolution These measurements do not include package or clock tree skew. 2. This parameter indicates the total sampling error of Virtex-5 FPGA DDR input registers across voltage, temperature, and process. The characterization methodology uses the BUFIO clock network and IODELAY to capture the DDR input registers’ edges of operation. These measurements do not include package or clock tree skew.

Table 101: Source-Synchronous Pin-to-Pin Setup/Hold and Clock-to-Out
Symbol Description Speed Grade -3 -2 -1 Units

Data Input Setup and Hold Times Relative to a Forwarded Clock Input Pin Using BUFIO TPSCS/TPHCS Setup/Hold of I/O clock –0.56 1.59 –0.54 1.72 –0.54 1.91 ns

Pin-to-Pin Clock-to-Out Using BUFIO TICKOFCS Clock-to-Out of I/O clock 4.42 4.82 5.40 ns

Revision History
The following table shows the revision history for this document.
Date
04/14/06 05/12/06

Version
1.0 1.1 Initial Xilinx release.

Revision
? First version posted to the Xilinx website. Minor typographical edits. Revised design software version on page 30. ? Revised TIDELAYRESOLUTION in Table 64, page 44. ? Revised TDSPCKO in Table 69, page 48. Added register-to-register parameters to Table 52. ? Added VDRINT, VDRI, and CIN values to Table 3. ? Added HSTL_I_12 and LVCMOS12 to Table 7 and renumbered the notes. ? Removed pin-to-pin performance (Table 12). Updated and added values to register-register performance Table 52 (was Table 13). ? Added values to Table 53. ? Updated the speed specification version above Table 54. ? Added to Table 56 the I/O standards: HSTL_II_T_DCI, HSTL_II_T_DCI_18, SSTL2_II_T_DCI, and SSTL18_II_T_DCI. ? Revised FMAX values in Table 68, and RDWR_B Setup/Hold values in Table 70. ? In Table 74, changed FVCOMAX, removed TLOCKMIN, and revised TLOCKMAX values, also removed note pointing to Architecture Wizard. ? Removed Note 2 on Table 88.

05/24/06 08/04/06

1.2 1.3

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Date
09/06/06

Version
2.0

Revision
? Added new sections for LXT devices and added LXT devices to the appropriate tables. The addition of the "GTP_DUAL Tile Specifications" required the tables to be renumbered. ? Changed maximum VIN values in Table 1 and Table 2. ? Updated values and added Tj = 85°C to Table 4, page 3. ? Revised the cascade block RAM Memory, page 28 section in Table 52 to 64K with new I/O delays. ? Revised the setup and hold times in Table 60, page 40. ? Added FMAX_CASCADE to Table 68, page 47. ? Revised FFXLFMSMAX and FCLKINLFFXMSMAX in Table 76, page 57. ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? Added System Monitor parameters. Added XC5VLX85T to appropriate tables. Revised Table 28 including notes. Added Table 29, and Figure 3 and Figure 4. Added Table 48, page 25: RocketIO CRC block. Revised design software version and Table 54 on page 30. Updated ILOGIC Switching Characteristics, page 40 Updated FMAX_ECC in Table 68, page 47. Changed hold times for TSMDCCK/ TSMCCKD and TBPIDCC/TBPICCD in Table 70, page 51. Revised TFBDELAY, FOUTMIN, FOUTMAX, and FINJITTER Table 74, page 55. Revised Table 76, page 57.

10/13/06

2.1

01/05/07

2.2

Added IIN to Table 2. Added XC5VLX220T to appropriate tables. Added LVDCI33, LVDCI25, LVDCI18, LVDCI15 to Table 7. Update the symbols in the GTP Transceiver Table 24, Table 25, and Table 26. Add values for -1 speed grade in Table 30, page 16. Added SFI-4.1 values to Table 53, page 29. Removed -3 speed grade from available LX220 device list in Table 54, page 30. Added maximum frequency to Table 72 and Table 73, page 54. In Table 76, page 57 changed the all the CLKDV, CLKFX, and CLKFX180 Min values and the CLKIN Min values in the Input Clocks (High Frequency Mode) section. ? Added values to Table 79 and Table 80, page 60.

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Date
02/02/07

Version
3.0 ? ? ? ? ? ? ? ? ?

Revision
Added XC5VSX35T, XC5VSX50T, and SX5VSX95T devices to appropriate tables. Revised the IRPU values in Table 3, page 2. Revised the ICCAUXQ values in Table 4, page 3. Added values to Table 5, page 6. Minor added notes and changed descriptions in Table 25, page 13 and Table 26, page 13. Revised the SFI-4.1 (SDR LVDS Interface) -1 values in Table 53, page 29. Revised gain error, bipolar gain error, and event conversion time in Table 51, page 26 Changed the design software version that matches this data sheet above Table 54 on page 30. In "Switching Characteristics", the following values are revised: ? LVCMOS25, Fast, 12 mA in Table 56, page 32. ? Setup and Hold and TICKQ in Table 60, page 40. ? TOCKQ in Table 61, page 41. ? Sequential delay values in Table 63, page 43. ? TCXB, TCEO, and TDICK in Table 65, page 44. ? TRCKO_DO, TRCKO_POINTERS, TRCKO_ECCR, TRCKO_ECC, TRCCK_ADDR, TRDCK_DI, TRDCK_DI_ECC, TRCCK_WREN, and TRCO_FLAGS in Table 68, page 47. ? TDSPDCK_CC, TDSPCCK_{RSTAA, RSTBB}, TDSPCKO_{PP, CRYOUTP}, FMAX_MULT_NOMREG and FMAX_MULT_NOMREG_PATDET in Table 69, page 48. ? TBCCKO_O, and TBGCKO_O in Table 71, page 53. ? TBUFIOCKO_O and FMAX in Table 72, page 53. ? TBRCKO_O and TBRCKO_O_BYP in Table 73, page 54. ? Parameters in Table 74, page 55 including notes. ? In "Virtex-5 Device Pin-to-Pin Output Parameter Guidelines": ? Revised values in Table 84, Table 85, and Table 86. ? In "Virtex-5 Device Pin-to-Pin Input Parameter Guidelines": ? Clarified description in Table 91, page 69. ? Revised values in Table 91, Table 92, and Table 93. ? Removed duplicate TBUFR_MAX_FREQ and TBUFIO_MAX_FREQ from Table 98. ? Revised values in Table 101, page 85.

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Date
05/18/07

Version
3.1 ? ? ? ? ? ? ? ?

Revision
Added typical values for n and r in Table 3. Revised and added values to Table 4. Revised standard I/O levels in Table 7. Additions and updates to Table 26, Table 28, Table 29, Table 30, Table 48, Table 32, Table 33, Table 34, and Table 35. Added Ethernet MAC Switching Characteristics, page 25. Changed the design software version that matches this data sheet above Table 54 on page 30. Added new section: I/O Standard Adjustment Measurement Methodology, page 37. In "Switching Characteristics", the following values are revised: ? LVTTL, Slow and Fast, 2 mA, 4 mA, and 6 mA (Table 56). ? LVCMOS33, Slow and Fast, 2 mA, 4 mA, and 6 mA (Table 56). ? LVCMOS25, Slow and Fast, 2 mA and 4 mA, and Fast 12 mA (Table 56). ? LVCMOS18, Slow and Fast, 2 mA, 4 mA, and 6 mA (Table 56). ? LVCMOS15 and LVCMOS12, Slow and Fast, 2 mA (Table 56). ? TIDOCK and TIDOCKD in Table 60. ? Setup/Hold for Control Lines and Data Lines in Table 62. ? Add TIDELAYPAT_JIT and revised TIDELAYRESOLUTION in Table 64, page 44 and added Notes 1 and 2. ? Revised TRCK page 45 and removed TCKSR Table 65, page 44. ? Replaced TTWC with TMCP symbol in Table 66, page 46. ? Revised TCECK in Table 67. ? Revised TRCKO_FLAGS and TRDCK_DI_ECC encode only in Table 68. ? Revised Hold Times of Data/Control Pins to the Input Register Clock. Setup/Hold times of {PCIN, CARRYCASCIN, MULTSIGNIN} input to P register CLK. Hold times of some of the CE pins. Hold times of some of the RST pins. Hold times of {A, B} input to {P, CARRYOUT} output using multiplier and {ACIN, BCIN} input to {P, CARRYOUT} output using multiplier, CLK (AREG, BREG) to {P, CARRYOUT} output using multiplier, in Table 69. ? Updated and added values to Table 70, page 51. Revised -1 speed FMAX value in Table 72, page 53. Added Note 4 to TLOCKMAX and revised FINDUTY, FINMAX,and FVCOMAX in Table 74, page 55. Added ± values to Table 79 and Table 80. Changed TOUT_OFFSET in Table 80. In "Virtex-5 Device Pin-to-Pin Output Parameter Guidelines": ? Revised values in Table 84 through Table 90. In "Virtex-5 Device Pin-to-Pin Input Parameter Guidelines": ? Revised values in Table 91 through Table 97. In "Source-Synchronous Switching Characteristics": ? Revised values in Table 98, page 83. ? Added package skew values to Table 99, page 84. ? Revised values in Table 101, page 85.

? ? ? ? ? ?

06/15/07

3.2

? ? ? ? ? ?

Updated TSTG in Table 1. Corrected VOH/VOL in Table 9 and Table 10, page 8. Changed the design software version that matches this data sheet above Table 54 on page 30. Added "Production Silicon and ISE Software Status," page 31. Added TIODELAY_CLK_MAX and revised TCKSR in Table 64, page 44. In "Virtex-5 Device Pin-to-Pin Output Parameter Guidelines": Revised values in Table 85 through Table 90. ? In "Virtex-5 Device Pin-to-Pin Input Parameter Guidelines": Revised values in Table 92 through Table 97. ? Corrected units to ns in Table 98, page 83.

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Date
06/26/07

Version
3.3 ? ? ? ? ? ?

Revision
Added conditions to DVPPIN in Table 28, page 14. Changed the FGTXMAX symbol name to FGTPMAX. Updated GTP maximum line rates to 3.75 Gb/s in Table 30, page 16. Updated maximum frequencies in Table 33, page 17. Added 3.75 Gb/s condition and changed maximum value of FGTX in Table 34, page 17. Added 3.75 Gb/s sinusoidal jitter specification and changed maximum value of FGRX in Table 35, page 18. ? Changed analog input common mode ranges in Table 51, page 26. ? Changed TPKGSKEW values in Table 99, page 84. ? ? ? ? ? ? Added maximum value of IREF to Table 3, page 2. Revised Table 54 and changed the design software version in Table 55 for production devices. In Table 64, page 44, added High Performance Mode to Note 2. In Table 70, page 51, revised description of TSMDCCK/TSMCCKD. Added Note 4 to TDUTYCYCRANGE_200_400 frequency range in Table 78, page 59. In "Virtex-5 Device Pin-to-Pin Input Parameter Guidelines": Revised note 1 in Table 91 through Table 96.

07/26/07

3.4

09/27/07

3.5

? Added IBATT value and Note 2 to Table 3. ? Added "DRP Clock Frequency" and Note 4 to Table 51. Revised the typical and maximum values and units for gain error and bipolar gain error. ? Removed unsupported XC5VSX95T -3 speed grade from Table 54 and Table 55. ? Removed unsupported I/O standards (LVDS_33, LVDSEXT_33, and ULVDS_25) from Table 51. Also updated LVDSEXT, 2.5V in Table 59. ? Added values to "Dynamic Reconfiguration Port (DRP) for DCM and PLL Before and After DCLK" in Table 70. ? In "Virtex-5 Device Pin-to-Pin Input Parameter Guidelines": Revised note 1 in Table 91 through Table 97. ? ? ? ? ? ? ? ? ? ? ? ? ? Removed note 1 from Table 52, page 28. FMAX of clock is not an applicable limitation. Revised DDR2 memory interface performance in Table 53, page 29. Revised Table 55 to add ISE 9.2i SP3 where applicable. Removed XC5VSX95T -3 speed grade support from applicable tables. Removed unsupported I/O standard (LVPECL_33) from Table 58 and added LVPECL_25. Added TSMCO and TSMCKBY to Table 70, page 51. Revised note 3 in Table 76, page 57 and Table 77, page 58. Clarified notes in Table 87 to Table 90, and Table 94 to Table 97. Revised note 1 in Table 99.

11/05/07

3.6

12/11/07

3.7

Added new devices (XC5VLX20T, XC5VLX155, and XC5VLX155T) throughout document. Removed -3 speed grade from XC5VSX95T device lists. Added Table 31, page 16. Revised "Virtex-5 Device Pin-to-Pin Output Parameter Guidelines" in Table 87 through Table 90, and "Virtex-5 Device Pin-to-Pin Input Parameter Guidelines" in Table 90 and Table 92 through Table 97. Also revised Note 1 on Table 92 through Table 97. ? Revised Note 1 on Table 99.

02/05/08

3.8

? Updated date on version 3.7. Other minor typographical edits. ? Updated the sentence: Xilinx does not specify the current or I/O behavior for other power-on sequences, on page 6. ? Added values and notes to Table 27, page 14. Removed ICCINTQ since it is included in Table 4, page 3. Combined IVTTRXCQ into IVTTRXQ values. ? Revised TLLSKEW values in Table 34, page 17. ? Revised RXPPMTOL values and note 1 in Table 35, page 18. ? Revised -2 performance value for SPI-4.2 in Table 53, page 29. ? Added TIODDO_T, TIODDO_IDATAIN, TIODDO_ODATAIN, and Note 3 to Table 64, page 44. ? Split out the FMAX rows in Table 71 and the FOUTMAX rows in Table 74, revised -2 value for smallest devices in both tables. ? Added Table 75: PLL in PMCD Mode Switching Characteristics, page 56. ? Updated Table 4 and Table 84 to Table 98 to match speed grade designations listed in Table 54. ? Revised Note 1 on Table 96 and Table 97.

DS202 (v5.0) February 6, 2009 Product Specification

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Date
03/31/08

Version
4.0

Revision
? Added XC5VFX30T, XC5VFX70T, XC5VFX100T, XC5VFX130T, XC5VFX200T devices to appropriate tables. ? Updated "Power-On Power Supply Requirements," page 6. ? Added "GTX_DUAL Tile Specifications" and "PowerPC 440 Switching Characteristics"sections. ? Corrected MGTAVCC in Table 24, page 13. ? Updated MGTRREF in Table 26, page 13. ? Changed the symbol names to FGTPTX in Table 34 and FGTPRX in Table 35. ? Moved the CRC Block Switching Characteristics to Table 48, page 25. ? Added notes to Table 53. ? Revised speed specification version to 1.59. ? Added XC5VSX240T to appropriate tables. ? Clarified maximum frequency descriptions in Table 68, page 47. ? Added Maximum Readback Frequency (FRBCCK) to SelectMAP Mode Programming Switching in Table 70. ? Revised speed specification version to 1.60. ? Revised Ethernet MAC Switching Characteristics and added Endpoint Block for PCI Express Designs Switching Characteristics. ? Revised some VMEAS values and added note 6 to Table 58, page 37. Added Figure 12, page 38 to Output Delay Measurements. Revised some VMEAS and RREF values and added note 4 to Table 59, page 38. ? Reversed the order of the setup/hold values for TPLLCCK_REL/TPLLCKC_REL in Table 75, page 56. ? Added Package Skew values to Table 99, page 84. ? Revised Table 12, page 9. ? Added values to some devices in Table 4. ? Increased the maximum VIN in Table 28, page 14. ? Revised VIDIFF and VISE in Table 29, Figure 3, and Figure 4, page 15. Same change for GTX transceivers in Table 41, Figure 8, and Figure 9, page 21. ? Added values to Table 43. ? Updated Table 54 and Table 55 with production status on some devices. ? In Table 71, revised TBCCK0_0, TBGCK0_0. In Table 73, revised TBRCKO_O, and TBRCKO_O_BYP. ? Revised XC5VLX20T, XC5VLX155, XC5VLX155T, XC5VFX30T, XC5VFX70T, XC5VFX100T, XC5VFX130T, and some XC5VSX240T values in Table 84 through Table 98. ? Added values to Table 5. ? Added values to Table 5. ? Moved XC5VLX20T to production in Table 54 and Table 55. ? Updated the FOUTMAX in Table 74. ? Added XC5VTX150T and XC5VTX240T devices to appropriate tables. ? Added values to Table 4 and Table 5. ? Updated data in Table 38, Table 39, Table 40, Table 41, Table 42, Table 44, Table 45, Table 46, and Table 47. ? Moved XC5VLX20T to production in Table 54 and Table 55. ? Added note 8 to Table 68, page 47. ? Added note 1 to Table 74, page 55. ? ? ? ? ? ? ? ? ? ? ? Added IIN row to Absolute Maximum Ratings in Table 1, page 1. In Table 32, page 16, changed duty cycle values for TDCREF and added note 2. Changed Conditions for TPHASE in Table 32, page 16 and Table 44, page 22. In Table 35, page 18, updated RXPPMTOL values, updated note 1, and added note 2. In Table 45, page 23, updated parameters with separate FXT and TXT values. In Table 46, page 23, corrected units of TLLSKEW. In Table 54, page 30, updated SX240T, FXT, and TXT speed grade designations. In Table 55, page 31, updated SX240T and FXT rows. In Table 58, page 37, added LVCMOS, 1.2V row. In Table 59, page 38, corrected VMEAS value for LVCMOS, 1.2V row. In Table 80, page 60, updated note 3 with sentence about global clock tree.

04/25/08

4.1

05/09/08

4.2

05/15/08 06/12/08

4.3 4.4

06/18/08 06/26/08

4.5 4.6

09/23/08

4.7

12/02/08

4.8

DS202 (v5.0) February 6, 2009 Product Specification

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Virtex-5 FPGA Data Sheet: DC and Switching Characteristics

Date
12/19/08 01/14/09

Version
4.9 4.10

Revision
? Updated Table 5, page 6 with power-on current values for XC5VSX240T, XC5VTX150T, XC5VTX240T, XC5VFX100T, and XC5VFX200T devices. ? In Table 1, page 1, changed note 2 to refer to UG112 for soldering guidelines. ? In Table 54, page 30, moved speed grades for the XC5VTX150T and XC5VTX240T devices to Production. ? In Table 55, page 31, added the ISE software version for the XC5VTX150T and XC5VTX240T devices. ? In Table 80, page 60, moved the reference to the duty cycle distortion note to apply to both TDUTY_CYC_DLL and TDUTY_CYC_FX. ? Changed document classification from Advance Product Specification to Product Specification. ? In Table 1, page 1, changed VIN and added note 5. ? In Table 5, page 6, removed the Max columns and added note 2 about calculating the maximum startup current. ? In Table 74, page 55, removed LX20T from second row of FOUTMAX.

02/06/09

5.0

Notice of Disclaimer
THE XILINX HARDWARE FPGA AND CPLD DEVICES REFERRED TO HEREIN ("PRODUCTS") ARE SUBJECT TO THE TERMS AND CONDITIONS OF THE XILINX LIMITED WARRANTY WHICH CAN BE VIEWED AT http://www.xilinx.com/warranty.htm. THIS LIMITED WARRANTY DOES NOT EXTEND TO ANY USE OF PRODUCTS IN AN APPLICATION OR ENVIRONMENT THAT IS NOT WITHIN THE SPECIFICATIONS STATED IN THE XILINX DATA SHEET. ALL SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE. PRODUCTS ARE NOT DESIGNED OR INTENDED TO BE FAIL-SAFE OR FOR USE IN ANY APPLICATION REQUIRING FAIL-SAFE PERFORMANCE, SUCH AS LIFE-SUPPORT OR SAFETY DEVICES OR SYSTEMS, OR ANY OTHER APPLICATION THAT INVOKES THE POTENTIAL RISKS OF DEATH, PERSONAL INJURY, OR PROPERTY OR ENVIRONMENTAL DAMAGE ("CRITICAL APPLICATIONS"). USE OF PRODUCTS IN CRITICAL APPLICATIONS IS AT THE SOLE RISK OF CUSTOMER, SUBJECT TO APPLICABLE LAWS AND REGULATIONS.

DS202 (v5.0) February 6, 2009 Product Specification

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