XILINX XQVR300

0
QPro Virtex 2.5V Radiation
Hardened FPGAs
R
DS028 (v1.2) November 5, 2001
0
2
Preliminary Product Specification
Features
•
0.22 µm 5-layer epitaxial process
•
QML certified
•
Radiation hardened FPGAs for space and satellite
applications
•
Guaranteed total ionizing dose to 100K Rad(si)
•
Latch-up immune to LET = 125 MeV cm2/mg
•
SEU immunity achievable with recommended
redundancy implementation
•
Guaranteed over the full military temperature range
(–55°C to +125°C)
•
•
•
•
•
•
•
Fast, high-density Field-Programmable Gate Arrays
-
Densities from 100k to 1M system gates
-
System performance up to 200 MHz
-
Hot-swappable for Compact PCI
16 high-performance interface standards
-
Connects directly to ZBTRAM devices
Complete support for Unified Libraries, Relationally
Placed Macros, and Design Manager
-
Wide selection of PC and workstation platforms
SRAM-based in-system configuration
-
Unlimited reprogrammability
-
Four programming modes
Available to Standard Microcircuit Drawings. Contact
Defense Supply Center Columbus (DSCC) for more
information at http://www.dscc.dla.mil
-
5962-99572 for XQVR300
-
5962-99573 for XQVR600
-
5962-99574 for XQVR1000
Description
The QPro™ Virtex™ FPGA family delivers high-performance, high-capacity programmable logic solutions. Dramatic increases in silicon efficiency result from optimizing
the new architecture for place-and-route efficiency and
exploiting an aggressive 5-layer-metal 0.22 µm CMOS process. These advances make QPro Virtex FPGAs powerful
and flexible alternatives to mask-programmed gate arrays.
The Virtex radiation hardened family comprises the three
members shown in Table 1.
Multi-standard SelectI/O™ interfaces
-
•
-
Built-in clock-management circuitry
-
Four dedicated delay-locked loops (DLLs) for
advanced clock control
-
Four primary low-skew global clock distribution
nets, plus 24 secondary global nets
Hierarchical memory system
-
LUTs configurable as 16-bit RAM, 32-bit RAM,
16-bit dual-ported RAM, or 16-bit Shift Register
-
Configurable synchronous dual-ported 4k-bit
RAMs
-
Fast interfaces to external high-performance RAMs
Flexible architecture that balances speed and density
-
Dedicated carry logic for high-speed arithmetic
-
Dedicated multiplier support
-
Cascade chain for wide-input functions
-
Abundant registers/latches with clock enable, and
dual synchronous/asynchronous set and reset
-
Internal 3-state bussing
-
IEEE 1149.1 boundary-scan logic
-
Die-temperature sensing device
Building on experience gained from previous generations of
FPGAs, the Virtex family represents a revolutionary step
forward in programmable logic design. Combining a wide
variety of programmable system features, a rich hierarchy of
fast, flexible interconnect resources, and advanced process
technology, the QPro Virtex family delivers a high-speed
and high-capacity programmable logic solution that
enhances design flexibility while reducing time-to-market.
Refer to the “Virtex™ 2.5V Field Programmable Gate
Arrays” commercial data sheet for more information on
device architecture and timing specifications.
Supported by FPGA Foundation™ and Alliance
Development Systems
© 2001 Xilinx, Inc. All rights reserved. All Xilinx trademarks, registered trademarks, patents, and disclaimers are as listed at http://www.xilinx.com/legal.htm.
All other trademarks and registered trademarks are the property of their respective owners. All specifications are subject to change without notice.
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
www.xilinx.com
1-800-255-7778
1
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Table 1: QPro Virtex Radiation Hardened Field-Programmable Gate Array Family Members.
Device
System Gates
CLB Array
Logic Cells
Maximum
Available I/O
Block RAM Bits
Max Select
RAM Bits
XQVR300
322,970
32x48
6,912
316
65,536
98,304
XQVR600
661,111
48x72
15,552
316
98,304
221,184
XQVR1000
1,124,022
64x96
27,648
404
131,072
393,216
Radiation Specifications(1)
Symbol
Description
Min
Max
Units
TID
Total Ionizing Dose
100
-
krad(Si)
-
0
(cm2/Device)
-
6.5E – 8
(cm2/Bit)
-
8.0E – 8
(cm2/Bit)
-
2.2E – 14
(cm2/Bit)
-
1.6E – 7
(cm2/Bit)
Method 1019, Dose Rate ~9.0 rad(Si)/sec
SEL
Single Event Latch-up Immunity
Heavy Ion Saturation Cross Section
LET > 125 MeV cm2/mg
SEUFH
Single Event Upset CLB Flip-flop
Heavy Ion Saturation Cross Section
SEU CH
Single Event Upset Configuration Latch
Heavy Ion Saturation Cross Section
SEUCP
Single Event Upset Configuration Latch
Proton (63 MeV) Saturation Cross Section
SEUBH
Single Event Upset BRAM Bit
Heavy Ion Saturation Cross Section
Notes:
1. For more information, refer to "Radiation Test Results of the Virtex FPGA for Space Based Reconfigurable Computing" and "SEU
Mitigation Techniques for Virtex FPGAs in Space Applications" at http://www.xilinx.com/products/hirel_qml.htm.
2
www.xilinx.com
1-800-255-7778
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Virtex Electrical Characteristics
Based on preliminary characterization. Further changes are not expected.
All specifications are representative of worst-case supply voltage and junction temperature conditions. The parameters
included are common to popular designs and typical applications. Contact the factory for design considerations requiring
more detailed information.
Virtex DC Characteristics
Absolute Maximum Ratings
Symbol
Description
Min/Max
Units
VCCINT
Supply voltage relative to GND
–0.5 to 3.0
V
VCCO
Supply voltage relative to GND
–0.5 to 4.0
V
VREF
Input reference voltage
VIN(3)
Input voltage relative to GND
VTS
Voltage applied to 3-state output
VCC
Longest supply voltage rise time from 1V to 2.375V
TSTG
Storage temperature (ambient)
TJ
–0.5 to 3.6
V
Using VREF
–0.5 to 3.6
V
Internal threshold
–0.5 to 5.5
V
–0.5 to 5.5
V
50
ms
–65 to +150
°C
+150
°C
Junction temperature
Notes:
1. Stresses beyond those listed under Absolute Maximum Ratings may 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 may affect device reliability.
2. Power supplies may turn on in any order.
3. For protracted periods (e.g., longer than a day), VIN should not exceed VCCO by more that 3.6V.
Recommended Operating Conditions
Symbol
VCCINT
VCCO
Description
Supply voltage relative to GND
Supply voltage relative to GND
TIN
Input signal transition time
TIC
Initialization temperature range(4)
TOC
ICCINTQ
ICCCCOQ
Device
Operational temperature
range(5)
Quiescent VCCINT supply current
Quiescent VCCO supply current
Min
2.5 – 5%
Max
2.5 + 5%
Units
V
1.2
3.6
V
-
250
ns
XQVR300
–55
+125
°C
XQVR600
–55
+125
°C
XQVR1000
–40
+125
°C
XQVR300
–55
+125
°C
XQVR600
–55
+125
°C
XQVR1000
–55
+125
°C
XQVR300
-
150
mA
XQVR600
-
200
mA
XQVR1000
-
200
mA
XQVR300
-
4.0
mA
XQVR600
-
4.0
mA
XQVR1000
-
4.0
mA
Notes:
1. Correct operation is guaranteed with a minimum VCCINT of 2.25V (Nominal VCCINT – 10%). Below the minimum value stated above,
all delay parameters increase by 3% for each 50 mV reduction in VCCINT below the specified range.
2. At junction temperatures above those listed as Operating Conditions, all delay parameters increase by 0.35% per °C.
3. Input and output measurement threshold is ~50% of VCC.
4. Initialization occurs from the moment of VCC ramp-up to the rising transition of the INIT pin.
5. The device is operational after the INIT pin has transitioned high.
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
www.xilinx.com
1-800-255-7778
3
R
QPro Virtex 2.5V Radiation Hardened FPGAs
QPro Virtex Pinouts
Device/Package Combinations and Maximum I/O
Maximum User I/O (excluding dedicated clock pins)
Package
XQVR300
XQVR600
XQVR1000
CB228
162
162
-
CG560
-
-
404
Pinout Tables
See the Xilinx WebLINX web site (http://www.xilinx.com/partinfo/databook.htm) for updates or additional
pinout information. For convenience, Table 2 and Table 3 list
the locations of special-purpose and power-supply pins.
Pins not listed are user I/Os.
Table 2: Virtex Ceramic Column Grid (CG560) Pinout
(Continued)
Table 2: Virtex Ceramic Column Grid (CG560) Pinout
4
Pin Name
Device
CG560
GCK0
XQVR1000
AL17
Pin Name
Device
CG560
TDO
XQVR1000
E6
TMS
B33
TCK
E29
DXN
AK29
DXP
AJ28
GCK1
AJ17
GCK2
D17
GCK3
A17
M0
AJ29
M1
AK30
M2
AN32
CCLK
C4
PROGRAM
AM1
DONE
AJ5
INIT
AH5
Y31, AB2,
BUSY/DOUT
D4
AB32, AD2,
D0/DIN
E4
AD32, AG3,
D1
K3
AG31, AJ13,
D2
L4
D3
P3
D4
W4
D5
AB5
D6
AC4
D7
AJ4
WRITE
D6
CS
A2
TDI
D5
VCCINT
A21, B12,
(VCCINT pins are listed
incrementally. Connect
all pins listed for both the
required device and all
smaller devices listed in
the same package.)
B14, B18,
B28, C22,
C24, E9,
E12, F2,
H30, J1,
K32, M3,
N1, N29,
N33, U5,
U30, Y2,
AK8, AK11,
AK17, AK20,
AL14, AL22,
AL27, AN25
VCCO, Bank 0
A22, A26,
A30, B19, B32
VCCO, Bank 1
A10, A16,
B13, C3, E5
VCCO, Bank 2
B2, D1,
H1, M1, R2
www.xilinx.com
1-800-255-7778
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Table 2: Virtex Ceramic Column Grid (CG560) Pinout
(Continued)
Pin Name
VCCO, Bank 3
Device
CG560
XQVR1000
V1, AA2,
AD1, AK1, AL2
VCCO, Bank 4
AM2, AM15,
AN4, AN8,
AN12
VCCO, Bank 5
AL31, AM21,
AN18, AN24,
AN30
VCCO, Bank 6
W32, AB33,
AF33, AK33,
AM32
VCCO, Bank 7
Pin Name
VREF, Bank 6
Device
CG560
XQVR1000
V29, Y32,
AA30,AD31,
Within each bank, if input
reference voltage is not
required, all VREF pins
are general I/O.
AE29, AK32,
AE31, AH30
VREF, Bank 7
D31, E31,
Within each bank, if input
reference voltage is not
required, all VREF pins
are general I/O.
G31, H32,
K31, P31,
T31, L33
GND
A1, A7, A12,
A14, A18, A20,
C32, D33,
A24, A29,
K33, N32, T33
A32, A33,
VREF, Bank 0
A19, D20,
Within each bank, if input
reference voltage is not
required, all VREF pins
are general I/O.
D26, D29,
VREF, Bank 1
Table 2: Virtex Ceramic Column Grid (CG560) Pinout
(Continued)
B1, B6,
B9, B15,
B23, B27,
E21, E23,
B31, C2,
E24, E27,
E1, F32,
A6, D7,
G2, G33,
D10, D11,
J32, K1,
D13, D16,
L2, M33,
E7, E15
P1, P33,
VREF, Bank 2
B3, G5,
R32, T1,
Within each bank, if input
reference voltage is not
required, all VREF pins
are general I/O.
H4, K5,
V33, W2,
L5, N5,
Y1, Y33,
P4, R1
AB1, AC32,
VREF, Bank 3
V4, W5,
Within each bank, if input
reference voltage is not
required, all VREF pins
are general I/O.
AD33, AE2,
AG1, AG32,
Within each bank, if input
reference voltage is not
required, all VREF pins
are general I/O.
AA4, AD3,
VREF, Bank 4
AK13, AL7,
AM19, AM25,
Within each bank, if input
reference voltage is not
required, all VREF pins
are general I/O.
AL9, AL10,
AM28, AM33,
AL16, AM4,
AN1, AN2,
AM14,AN3
AN5, AN10,
VREF, Bank 5
AJ18, AJ25,
AN14, AN16,
Within each bank, if input
reference voltage is not
required, all VREF pins
are general I/O.
AK28, AL20,
AN20, AN22,
AL24, AL29,
AN27, AN33
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
AH2, AJ33,
AE5, AF1,
AL32, AM3,
AH4, AK2
AM26, AN23
AM7, AM11,
No Connect
www.xilinx.com
1-800-255-7778
XQVR1000
C31, AC2, AK4,
AL3
5
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Table 3: CQFP Package (CB228) (Continued)
Table 3: CQFP Package (CB228)
6
Function
Pin #
Bank #
Function
Pin #
Bank #
GND
1
7
VCCO
28
6
TMS
2
IO_TRDY
29
IO
3
VCCINT
30
IO
4
IO
31
IO_VREF_7
5
IO
32
IO
6
IO
33
IO
7
IO_VREF_6
34
GND
8
IO
35
IO
9
IO
36
IO
10
VCCO
37
IO
11
IO
38
IO_VREF_7
12
IO
39
IO
13
IO
40
GND
14
VCCINT
41
VCCINT
15
GND
42
IO
16
IO
43
IO
17
IO_VREF_6
44
VCCO
18
IO
45
IO
19
IO
46
IO
20
IO_VREF_6
47
IO_VREF_7
21
GND
48
IO
22
IO
49
IO
23
IO
50
IO
24
IO_VREF_6
51
IO
25
IO
52
IO_IRDY
26
IO
53
GND
27
IO
54
M1
55
GND
56
M0
57
www.xilinx.com
1-800-255-7778
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Table 3: CQFP Package (CB228) (Continued)
Table 3: CQFP Package (CB228) (Continued)
Function
Pin #
Bank #
Function
Pin #
Bank #
VCCO
58
5
VCCINT
83
4
M2
59
GCK1
84
IO
60
VCCO
85
IO
61
GND
86
IO
62
GCKO
87
IO_VREF_5
63
IO
88
IO
64
IO
89
IO
65
IO
90
GND
66
IO
91
IO_VREF_5
67
IO_VREF_4
92
IO
68
IO
93
IO
69
IO
94
IO_VREF5
70
VCCO
95
IO
71
IO
96
GND
72
IO
97
VCCINT
73
IO
98
IO
74
VCCINT
99
IO
75
GND
100
VCCO
76
IO
101
IO
77
IO_VREF_4
102
IO
78
IO
103
IO_VREF_5
79
IO
104
IO
80
IO_VREF_4
105
IO
81
GND
106
IO
82
IO
107
IO
108
IO_VREF_4
109
IO
110
IO
111
IO
112
GND
113
DONE
114
VCCO
115
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
www.xilinx.com
1-800-255-7778
7
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Table 3: CQFP Package (CB228) (Continued)
Table 3: CQFP Package (CB228) (Continued)
8
Function
Pin #
Bank #
Function
Pin #
Bank #
PROGRAM
116
3
GND
143
2
IO_INIT
117
IO_IRDY
144
IO_D7
118
IO
145
IO
119
IO
146
IO_VREF_3
120
IO
147
IO
121
IO_D3
148
IO
122
IO_VREF_2
149
GND
123
IO
150
IO_VREF_3
124
IO
151
IO
125
VCCO
152
IO
126
IO
153
IO_VREF_3
127
IO
154
IO_D6
128
IO_D2
155
GND
129
VCCINT
156
VCCINT
130
GND
157
IO_D5
131
IO_D1
158
IO
132
IO_VREF_2
159
VCCO
133
IO
160
IO
134
IO
161
IO
135
IO_VREF_2
162
IO_VREF_3
136
GND
163
IO_D4
137
IO
164
IO
138
IO
165
IO
139
IO_VREF_2
166
VCCINT
140
IO
167
IO_TRDY
141
IO_DIN_D0
168
VCCO
142
IO_DOUT_BUSY
169
CCLK
170
VCCO
171
www.xilinx.com
1-800-255-7778
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Table 3: CQFP Package (CB228) (Continued)
Table 3: CQFP Package (CB228) (Continued)
Function
Pin #
Bank #
Function
Pin #
Bank #
TDO
172
1
GCK3
202
0
GND
173
VCCINT
203
TDI
174
IO
204
IO_CS
175
IO
205
IO_WRITE
176
IO
206
IO
177
IO_VREF_0
207
IO_VREF_1
178
IO
208
IO
179
IO
209
GND
180
VCCO
210
IO_VREF_1
181
IO
211
IO
182
IO
212
IO
183
IO
213
IO_VREF_1
184
VCCINT
214
IO
185
GND
215
GND
186
IO
216
VCCINT
187
IO_VREF_0
217
IO
188
IO
218
IO
189
IO
219
IO
190
IO_VREF_0
220
VCCO
191
GND
221
IO
192
IO
222
IO
193
IO
223
IO_VREF_1
194
IO_VREF_0
224
IO
195
IO
225
IO
196
IO
226
IO
197
TCK
227
IO
198
VCCO
228
GCK2
199
GND
200
VCCO
201
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
www.xilinx.com
1-800-255-7778
9
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Table 3: CQFP Package (CB228) (Continued)
Table 4: Pinout Diagram Symbols (Continued)
Function
Pin #
Bank #
Symbol
GND
1, 8, 14, 27, 42,
48, 56, 66, 72,
86, 100, 106,
113, 123, 129,
143, 157, 163,
173, 180, 186,
200, 215, 221
-
v
Device-dependent VCCINT, n/c on smaller
devices
O
VCCO
R
VREF
r
Device-dependent VREF, remains I/O on
smaller devices
15, 30, 41, 73,
83, 99, 130,
140, 156, 187,
203, 214
-
G
Ground
18, 28, 37, 58,
76, 85, 95, 115,
133, 142, 152,
171, 191, 201,
210, 228
-
VCCINT
VCCO
Ø, 1, 2, 3
❿, ❶, ❷
➉, ➀, ➁, ➂,
Pin Function
Global Clocks
M0, M1, M2
D0/DIN, D1, D2, D3, D4, D5, D6, D7
➃, ➄, ➅, ➆
B
DOUT/BUSY
D
DONE
Pinout Diagrams
P
PROGRAM
The following diagrams illustrate the locations of special-purpose pins on Virtex FPGAs. Table 4 lists the symbols used in these diagrams. The diagrams also show
I/O-bank boundaries.
I
INIT
K
CCLK
W
WRITE
Table 4: Pinout Diagram Symbols
S
CS
T
Boundary-scan test access port
Symbol
10
Pin Function
S
General I/O
+
Temperature diode, anode
d
Device-dependent general I/O, n/c on
smaller devices
–
Temperature diode, cathode
n
No connect
V
VCCINT
www.xilinx.com
1-800-255-7778
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
R
QPro Virtex 2.5V Radiation Hardened FPGAs
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
CG560 Pin Function Diagram
G
G
✳
O
G
✳
✳
O
V
G
✳
O
V
G
R
G
✳
O
✳
G
✳
G
✳
O
✳
r
G
✳
✳
O
✳
P
G
S
O
G
✳
✳
V
G
✳
✳
✳
G
✳
✳
✳
O
✳
✳
✳
G
V
O
v
n
V
G
✳
✳
G
✳
R
O
O
G
✳ ✳ ✳ R G ✳ ✳ O ✳
r ✳ ✳ G ✳ ✳ G ✳ ✳
OK ✳ ✳ ✳ ✳ ✳ ✳ ✳
✳ B T W R ✳ ✳ r R
✳ ➉O T r ✳V ✳ ✳
✳ ✳ ✳
Bank 1
✳ ✳ R
✳ R ✳
✳ ✳ ✳
➀✳ r
Bank 2
✳ ➁R
v ✳ ✳
✳ ✳ r
➂R ✳
✳ ✳ ✳
✳ ✳ ✳
✳ ✳V
✳ R ✳
✳ ➃R
✳ ✳ ✳
✳ r ✳
✳ ✳ ➄
✳ ➅ ✳ Bank 3
R ✳ ✳
✳ ✳ R
✳ ✳ ✳
V ✳ ✳
Bank 4
✳ r I
✳ ➆D ✳ ✳ ✳ ✳ ✳ ✳
✳ n ✳ ✳ ✳V ✳ ✳V
n ✳ ✳ ✳ R ✳ r R ✳
G R ✳ ✳ G ✳ ✳ ✳ G
r O G ✳ ✳ O ✳ G ✳
G
v
✳
✳
V
✳
O
✳
r
✳
G
V
✳
✳
✳
✳
G
✳
✳
R
O
✳
✳
R
✳
3
✳
✳
2
✳
G
V
✳
✳
✳
R
O
✳
✳
✳
G
✳
✳
R
✳
V
✳
✳
✳
r
O
✳
v
✳
✳
✳ G ✳
G ✳ ✳
✳V ✳
✳ ✳ ✳
R r ✳
Bank 0
O
✳
✳
R
✳
✳
G
✳
✳
R
✳
V
✳
✳
✳
Bank 7
CG560
(Top View)
Bank 6
Bank 5
✳
✳
✳
✳
O
v
r
✳
✳
✳
✳
✳
V
R
G
✳
✳
✳
O
✳
✳
✳
R
✳
G
1
V
Ø
✳
✳
R
✳
✳
✳
O
✳
✳
✳
G
✳
✳
V
R
✳
G
✳
✳
✳
O
✳
✳
✳
v
✳
G
✳
✳
✳
✳
r
✳
✳
R
✳
O
R
✳
✳
G
V
✳
✳
✳
r
✳
✳
✳
V
✳
G
+
r
✳
G
✳
G
✳
✳
r
T
✳
✳
✳
✳
✳
✳
✳
v
✳
✳
✳
✳
R
✳
✳
✳
✳
✳
✳
R
✳
✳
✳
❿
–
R
✳
✳
O
✳
✳
✳
✳
✳
✳
V
✳
✳
✳
✳
✳
✳
✳
✳
V
✳
✳
✳
r
✳
✳
✳
✳
✳
✳
r
✳
❶
✳
✳
O
✳
G
n
r
R
✳
R
✳
✳
R
✳
✳
✳
R
✳
R
✳
✳
✳
V
✳
✳
✳
R
r
✳
V
✳
✳
✳
O
✳
✳
G
O
O
✳
✳
G
✳
r
G
V
✳
✳
O
✳
G
✳
✳
✳
O
R
✳
v
G
V
✳
✳
G
✳
✳
R
G
O
❷
G
T
✳
O
✳
✳
G
✳
✳
O
r
G
V
G
✳
O
✳
G
✳
G
✳
O
✳
G
✳
O
✳
✳
G
O
✳
G
G
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
U
V
W
Y
AA
AB
AC
AD
AE
AF
AG
AH
AJ
AK
AL
AM
AN
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
A
B
C
D
E
F
G
H
J
K
L
M
N
P
R
T
U
V
W
Y
AA
AB
AC
AD
AE
AF
AG
AH
AJ
AK
AL
AM
AN
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
www.xilinx.com
1-800-255-7778
11
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Package Drawing CG560 Ceramic Column Grid
DS028_01_011900
12
www.xilinx.com
1-800-255-7778
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
R
QPro Virtex 2.5V Radiation Hardened FPGAs
Device/Package Combinations and Maximum I/O
Maximum User I/O (excluding dedicated clock pins)
Package
XQVR300
XQVR600
XQVR1000
CB228
162
162
-
CG560
-
-
404
Ordering Information
Example:
XQVR1000 -4 CG 560 V
Device Type
Manufacturing Grade
Number of Pins
Speed Grade(1)
Package Type
Device Ordering Options
Device Type
Package
Grade
XQVR300
CB228
228-pin Ceramic Quad Flat Package
XQVR600
CG560
560-column Ceramic Column Grid Package
XQVR1000
M
Military Ceramic
TC = –55°C to +125°C
V
QPro Plus
TC = –55°C to +125°C
Q
MIL-PRF-38535 (2)
TC = –55°C to +125°C
Notes:
1. -4 only supported speed grade.
2. Class Q must be ordered with SMD number.
Device Ordering Combinations
M Grade
V Grade
XQVR300-4CB228M
XQVR300-4CB228V
XQVR600-4CB228M
XQVR600-4CB228V
XQVR1000-4CG560M
XQVR1000-4CG560V
DS028 (v1.2) November 5, 2001
Preliminary Product Specification
www.xilinx.com
1-800-255-7778
13
R
QPro Virtex 2.5V Radiation Hardened FPGAs
SMD (Class Q) Odering Options
5962 R 9957201 Q Y C
Generic Standard
Microcircuit Drawing (SMD)
Lead Finish
Package Type
Radiation Hardened
QML Certified MIL-PRF-38535
Device Type
Valid SMD Combinations
SMD Number
Device
Pkg Markings
Lead Finish
5962R9957201QYC
XQVR300-4CB228Q
Lid
Gold Plate
5962R9957201QZC
XQVR300-4CB228Q
Base
Gold Plate
5962R9957301QYC
XQVR600-4CB228Q
Lid
Gold Plate
5962R9957301QZC
XQVR600-4CB228Q
Base
Gold Plate
5962R9957401QXC
XQVR1000-4CG560Q
-
Solder Column
Revision History
The following table shows the revision history for this document.
14
Date
Version
Revision
04/25/00
1.0
Initial Xilinx release.
02/13/01
1.1
Updated TemperatureSpecifications.
11/05/01
1.2
Updated Temp specifications for V600, Added Class V option and SMD. Updated format.
www.xilinx.com
1-800-255-7778
DS028 (v1.2) November 5, 2001
Preliminary Product Specification