XC5202-5PQ100C Xilinx Inc, XC5202-5PQ100C Datasheet - Page 16

XC5202-5PQ100C

Manufacturer Part Number

XC5202-5PQ100C

Description

IC - FPGA SPEED GRADE 5 COM TEMP

Manufacturer

Xilinx Inc

Series

XC5200r

Datasheet

1.XC5206-5PQ208C.pdf (73 pages)

Specifications of XC5202-5PQ100C

Number Of Logic Elements/cells

256

Number Of Labs/clbs

Number Of I /o

Number Of Gates

3000

Voltage - Supply

4.75 V ~ 5.25 V

Mounting Type

Surface Mount

Operating Temperature

0°C ~ 85°C

Package / Case

100-BQFP

Case

QFP100

01+

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Total Ram Bits

Other names

Q858790
XC5202-5PQ1000C
XC5202-5PQ1000C

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XC5200 Series Field Programmable Gate Arrays

VersaRing Input/Output Interface

The VersaRing, shown in

the core logic and the pad ring; it has all the routing

resources of a VersaBlock without the CLB logic. The Ver-

saRing decouples the core logic from the I/O pads. Each

VersaRing Cell provides up to four pad-cell connections on

one side, and connects directly to the CLB ports on the

other side.

Figure 18: VersaRing I/O Interface

Boundary Scan

The “bed of nails” has been the traditional method of testing

electronic assemblies. This approach has become less

appropriate, due to closer pin spacing and more sophisti-

cated assembly methods like surface-mount technology

and multi-layer boards. The IEEE boundary scan standard

1149.1 was developed to facilitate board-level testing of

electronic assemblies. Design and test engineers can

imbed a standard test logic structure in their device to

achieve high fault coverage for I/O and internal logic. This

structure is easily implemented with a four-pin interface on

any boundary scan-compatible IC. IEEE 1149.1-compatible

devices may be serial daisy-chained together, connected in

parallel, or a combination of the two.

7-98

GRM

VersaBlock

Product Obsolete or Under Obsolescence

Figure

VersaRing

Interconnect

18, is positioned between

Pad

X5705

XC5200 devices support all the mandatory boundary-scan

instructions specified in the IEEE standard 1149.1. A Test

Access Port (TAP) and registers are provided that imple-

ment the EXTEST, SAMPLE/PRELOAD, and BYPASS

instructions. The TAP can also support two USERCODE

instructions. When the boundary scan configuration option

is selected, three normal user I/O pins become dedicated

inputs for these functions. Another user output pin

becomes the dedicated boundary scan output.

Boundary-scan operation is independent of individual IOB

configuration and package type. All IOBs are treated as

independently controlled bidirectional pins, including any

unbonded IOBs. Retaining the bidirectional test capability

after configuration provides flexibility for interconnect test-

ing.

Also, internal signals can be captured during EXTEST by

connecting them to unbonded IOBs, or to the unused out-

puts in IOBs used as unidirectional input pins. This tech-

nique partially compensates for the lack of INTEST

support.

The user can serially load commands and data into these

devices to control the driving of their outputs and to exam-

ine their inputs. This method is an improvement over

bed-of-nails testing. It avoids the need to over-drive device

outputs, and it reduces the user interface to four pins. An

optional fifth pin, a reset for the control logic, is described in

the standard but is not implemented in Xilinx devices.

The dedicated on-chip logic implementing the IEEE 1149.1

functions includes a 16-state machine, an instruction regis-

ter and a number of data registers. The functional details

can be found in the IEEE 1149.1 specification and are also

discussed in the Xilinx application note XAPP 017: “Bound-

ary Scan in XC4000 and XC5200 Series devices”

Figure 19 on page 99

boundary scan logic. It includes three bits of Data Register

per IOB, the IEEE 1149.1 Test Access Port controller, and

the Instruction Register with decodes.

The public boundary-scan instructions are always available

prior to configuration. After configuration, the public instruc-

tions and any USERCODE instructions are only available if

specified in the design. While SAMPLE and BYPASS are

available during configuration, it is recommended that

boundary-scan operations not be performed during this

transitory period.

In addition to the test instructions outlined above, the

boundary-scan circuitry can be used to configure the FPGA

device, and to read back the configuration data.

All of the XC4000 boundary-scan modes are supported in

the XC5200 family. Three additional outputs for the User-

is a diagram of the XC5200-Series

November 5, 1998 (Version 5.2)

XC5202-5PQ100C Xilinx Inc, XC5202-5PQ100C Datasheet - Page 16

XC5202-5PQ100C

Specifications of XC5202-5PQ100C

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