DIGILENT DIGIL 410-249 Datasheet

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DOC#: 502-249

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JTAG-HS2™ Programming Cable for Xilinx® FPGAs

Revised January 22, 2015
This manual applies to the HTAG-HS2 rev. A

Overview

The Joint Test Action Group (JTAG)-HS2 programming cable is a high-speed programming solution for Xilinx field­programmable gate arrays (FPGAs). The cable is fully compatible will all Xilinx tools and can be seamlessly driven
from iMPACT, Chipscope™, and EDK. The HS2 attaches to target boards using Digilent's 6-pin, 100-mil spaced
programming header or Xilinx's 2×7, 2mm connector and the included adaptor.

The PC powers the JTAG-HS2 through the USB port and will recognize it as a Digilent programming cable when
connected to a PC, even if the cable is not attached to the target board. The HS2 has a separate Vdd pin to supply
the JTAG signal buffers. The high speed 24mA three-state buffers allow target boards to drive the HS2 with signal
voltages from 1.8V to 5V and bus speeds of up to 30MBit/sec. To function correctly, the HS2's Vdd pin must be tied
to the same voltage supply that drives the JTAG port on the FPGA (see Fig. 1).

The JTAG bus can be shared with other devices as systems hold JTAG signals at high-impedance except when
actively driven during programming. The HS2 comes with a standard Type-A to Micro-USB cable that attaches to
the end of the module opposite the system board connector. The system board connector should hold the small
and light HS2 firmly in place (see Fig. 2).

• Small, complete, all-in-one JTAG programming solution for

Xilinx FPGAs

• Compatible with all Xilinx tools

• Compatible with IEEE 1149.7-2009 Class T0 - Class T4

(includes 2-Wire JTAG)

• Separate Vref drives JTAG/SPI signal voltages; Vref can be

any voltage between 1.8V and 5V.

• High-Speed USB2 port that can drive JTAG/SPI bus at up to

30Mbit/sec

• JTAG/SPI frequency settable by user

• Uses micro-AB USB2 connector

The JTAG-HS2.

• SPI programming solution (modes 0 and 2 up to

30Mbit/sec, modes 1 and 3 up to 2Mbit/sec)

• Fully supported by the Adept SDK, allowing custom

JTAG/SPI applications to be created

JTAG-HS2™ Programming Cable for Xilinx FPGAs

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Page 2 of 6

VIO: 5V to 1.8V

USB2

Port

TMS

TDI

TDO

TCK

SS

MOSI

MISO

SCK

SPI DeviceJTAG-HS2

GND

VDD (VREF)

GND

VIO

Figure 1. Diagram of signal voltages and connections.

Figure 3. JTAG-HS2 SPI Device Connections.

Figure 2. Xilinx JTAG headers.

In addition to supporting JTAG, the JTAG-HS2 also features two highly configurable serial peripheral interface (SPI)
ports that allow communication with virtually any SPI peripheral. Both SPI ports share the same pins and only one
port may be enabled at any given time (see Fig. 3). Table 1 summarizes the features supported by each port. The
HS2 supports SPI modes 0, 1, 2, and 3.

Port
Number

0

1

Shift

SPI Mode

0 Yes Yes Yes 30 MHz 8 KHz 0 – 1000 µS

2 Yes Yes Yes 30 MHz 8 KHz 0 – 1000 µS

0 Yes Yes Yes 2.066 MHz 485 KHz 0 – 1000 µS

1 Yes Yes Yes 2.066 MHz 485 KHz 0 – 1000 µS

2 Yes Yes Yes 2.066 MHz 485 KHz 0 – 1000 µS

3 Yes Yes Yes 2.066 MHz 485 KHz 0 – 1000 µS

LSB
First

Shift
MSB
First

Table 1. Features supported by each port.

Selectable
SCK
Frequency

Max SCK
Frequency

Min SCK
Frequency

Inter-byte
Delay

JTAG-HS2™ Programming Cable for Xilinx FPGAs

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TMS
TDI
TCK
TDO

Host

+

JTAG-HS2

(DTS)

TMS
TDI
TCK

TDO

Target

System 0

TMS
TDI
TCK

TDO

Target

System 1

TMS
TDI
TCK

TDO

Target

System N

TMSC

TDIC

TCKC

TDOC

Target

System 0

Target

System 1

Target

System N

TMSC

TDIC

TCKC

TDOC

TMSC

TDIC

TCKC

TDOC

TMS
TDI
TCK
TDO

Host

+

JTAG-HS2

(DTS)

TMSC
TDIC
TCKC
TDOC

Target

System 0

Target

System 1

Target

System N

TMSC
TDIC
TCKC
TDOC

TMSC
TDIC
TCKC
TDOC

TMS
TDI
TCK
TDO

Host

+

JTAG-HS2

(DTS)

Figure 5. 4-Wire star topology (left), 2-Wire star topology (right).

Figure 4. 4-wire series topology.

1 Software Support

In addition to working seamlessly with all Xilinx tools, Digilent's Adept software and the Adept software
development kit (SDK) support the HS2 cable. For added convenience, customers may freely downloaded the SDK
from Digilent's website. This Adept software includes a full-featured programming environment and a set of public
application programming interfaces (API) that allow user applications to directly drive the JTAG chain.

With the Adept SDK, users can create custom applications that will drive JTAG ports on virtually any device. Users
may utilize the APIs provided by the SDK to create applications that can drive any SPI device supporting those
modes. Please see the Adept SDK reference manual for more information.

Digilent's AVR programmer also supports the HS2 and the cable can be used to program any AVR device.

2 IEEE 1149.7-2009 Compatibility

The JTAG-HS2 supports several scan formats including; the JScan0-JScan3, MScan, and OScan0 - OScan7. It is
capable of communicating in 4-wire and 2-wire scan chains that consist of Class T0 – T4 JTAG Target Systems (TS).
(See Figs. 4 & 5).

JTAG-HS2™ Programming Cable for Xilinx FPGAs

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The Adept SKD provides an example application that demonstrates how to communicate with a class T4 TAP

controller using the MScan, OScan0, and OScan1 scan formats.

3 Design Notes

The JTAG-HS2 uses high speed three-state buffers to drive the TMS, TDI, and TCK signals. These buffers are capable
of sourcing or sinking a maximum of 50 mA of current. The HS2 has 100 ohm resistors between the output of the
buffers and the I/O pins to ensure the cable does not exceed the maximum limit. To further limit short circuit
current, additional resistance may be placed in series with the I/O pins of the HS2 and the target board. However,
Digilent recommends limiting the amount of additional resistance to 100 ohms or less as higher resistance may
result in degraded operation.

When the JTAG-HS2 first receives power, the three-state buffers attached to the TMS, TDI, and TCK signals move
into a high-impedance state. They remain in the high-impedance state until an application enables the HS2's JTAG
or SPI port. Once these ports activate, the buffers actively drive the TMS, TDI, and TCK signals until the port is
disabled.

The IEEE 1149.7-2009 specification requires any device that functions as a debug and test system (DTS) to provide
a pull-up bias on the TMS and TDO pins. In order to meet this requirement, the JTAG-HS2 features weak pull-ups
(100K ohm) on the TMS, TDI, TDO, and TCK signals. While not strictly required, the pull-ups on the TDI and TCK
signals ensure that neither signal floats while another source is not actively driving them.

The JTAG-HS2 can interface scan chains that consist of one or more IEEE 1149-7 compatible Target Systems (TS).
The devices in these chains communicate using the TMS, TDI, TDO, and TCK signals or they may communicate
using only the TMS and TCK signals. Communication using only the TMS and TCK signals requires both the HS2 and
TS to drive the TMS pin. The current scan format, bit period, and the level of the TCK pin determine which device is
allowed to drive the TMS pin.

A drive conflict may occur when the HS2 and TS disagree on the current scan format setting or bit period. In the
event that a drive conflict occurs, the 100 ohm resistor between the TMS buffer and output pin will limit the
maximum current to 50 mA to prevent any damage from occurring to the JTAG-HS2. The drive conflict may be
resolved by having the JTAG-HS2 perform a reset escape, which will reset the scan format of the TS to
JScan0/JScan1. If the TMS pin of the TS is not capable of sourcing or sinking VDD (VREF) ÷ 100 amps of current then
an additional resistor should be placed in series with the TMS pin of the TS to further limit current flow.

In most cases a drive conflict can be avoided by having applications that use the HS2 communicate with the TS in
two-wire mode. Use the applications to reconfigure the TS to use the JScan0, JScan1, JScan2, or JScan3 scan
format prior to disabling the HS2's JTAG port.

JTAG-HS2™ Programming Cable for Xilinx FPGAs

Copyright Digilent, Inc. All rights reserved.
Other produc t and compa ny names mentioned may be trademarks of their res pective owne rs.

Page 5 of 6

TMS/TDI

TCK

TDO

T

CKL

T

CKH

T

CK

T

CD

T

SU

T

HD

4 Absolute Maximum Ratings

Symbol Parameter Condition Min Max Unit

VDD (VREF) I/O reference/supply voltage -0.5 6 V

VIO Signal Voltage -0.5 6 V

IIK,IOK

I

DC Output Current ±50 mA

OUT

T

Storage Temperature -20 +120 ºC

STG

TMS, TCK, TDI, TDO

DC Input/Output Diode Current

VIO < -0.5V

VIO > 6V +20

-50
mA

Human Body Model JESD22-A114 4000 V

ESD

Charge Device Model JESD22-C101 2000 V

5 DC Operating Characteristics

Symbol Parameter Min Typ Max Unit

VDD (VREF) I/O reference/supply voltage 1.65 2.5/3.3 5.5 Volts

Input High Voltage (VIH) 1.62 5.5 Volts

TDO

Input Low Voltage (VIL) 0 0.65 Volts

Output High (VOH) 0.85 x Vdd 0.95 x Vdd Vdd Volts

TMS, TCK, TDI

Output Low (VOL) 0 0.05 x Vdd 0.15 x Vdd Volts

6 AC Operating Characteristics

The JTAG-HS2 JTAG signals and SPI operate according to the timing diagram in Fig. 6. The HS2 supports TCK
frequencies from 30 MHz to 8 KHz at integer divisions of 30 MHz from 1 to 3750. Common frequencies include 30
MHz, 15 MHz, 10 MHz, 7.5 MHz, and 6 MHz (see Table 2).

Figure 6. Timing diagram. Table 2.Common frequencies.

Symbol Parameter Min Max

TCK TCK period 33.3ns 125µs

T

, T

CKL

T

CKH

TCD T

pulse width 16.6ns 62.5µs

CLK

to TMS, TDI 0 15ns

CLK

TSU TDO Setup time 19ns

THD TDO Hold time 0

JTAG-HS2™ Programming Cable for Xilinx FPGAs

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7 Supported Target Devices

The JTAG-HS2 is capable of targeting the following Xilinx devices:

1. Ordered List Item Xilinx FPGAs

2. Xilinx Zynq-7000

3. Xilinx CoolRunner™/CoolRunner-II CPLDs

4. Xilinx Platform Flash ISP configuration PROMs

5. Select third-party SPI PROMs

6. Select third-party BPI PROMs

The following devices cannot be targeted by the JTAG-HS2:

1. Ordered List Item Xilinx 9500/9500XL CPLDs

2. Xilinx 1700 and 18V00 ISP configuration PROMs

3. Xilinx FPGA eFUSE programming

Remote device configuration is not supported for the JTAG-HS2 when used with Xilinx's iMPACT software. Note:
Please see the "Introduction to Indirect Programming – SPI or BPI Flash Memory" help topic in iMPACT for a list of
supported FPGA/PROM combinations. Note: Please see the "Configuration Memory Support" section of Xilinx
UG908 for a list of the FPGA/PROM combinations that Vivado supports.