Tektronix Logic Analyzers
TLA7PG2 Pattern Generator Module
Breakthrough Solutions for Real-time
Digital Systems Analysis
Features & Benefits
64 Channel Modules with
up to 2 Mb Vector Depth
Up to 268 MHz Clock Rate
Supports TTL/CMOS,
ECL, PECL/LVPECL,
LVDS, LVCMOS Standard
Logic Levels
Variable Probe for Supporting
Variable Voltage Levels and
Delay of Two Channels for
Functional Verification
Pattern Sequencing
Control of Vector Output
Allows Flexible Definition
of Complex Events
Works with all TLA700 Series
Logic Analyzer Mainframes
Applications
Digital Hardware Verification
and Debug
Digital Hardware Simulation
and Debug
Hardware and software engineers need the
ability to generate digital stimuli to simulate
infrequently encountered test conditions
in hardware design and software program
testing. A pattern generator enables you to
perform functional verification, debugging
and stress testing for system hardware
design. This multi-channel, programmable
pattern generator module with sequential
control stimulates a prototype with data
from a simulator for extended analysis.
The pattern generator is ideal for designing
systems where surrounding boards, ICs or
buses that normally provide digital signals
to the device under test are missing. With
the pattern generator, you can place a circuit
in a desired state, operate it at full speed,
or single-step it through a series of states.
The TLA7PG2 features 64 channels
and supports up to a 268 MHz clock
rate for data output. The TLA7PG2 is
made compatible with numerous voltage
levels and technologies through the use
of external pattern generator probes.
The TLA700 Series logic analyzers capture
waveform data in a form that can be
read by SynaptiCAD WaveFormer Pro,
VeriLogger Pro, and TestBencher Pro software
tools. SynaptiCAD’s tools can convert the
logic analyzer waveform data into stimulus
vectors for VHDL, Verilog, SPICE, ABEL and
pattern generators, including the TLA7PG2.
This functionality gives engineers the ability
to leverage the work done during the design
phase of a product, simplifying the devel-
opment of a hardware test environment
that provides complete test coverage and
excellent debug capability.
1
Logic Analyzer Module
•
www.tektronix.com/logic_analyzers
Tektronix Logic Analyzers
TLA7PG2 Pattern Generator Module
Characteristics
General
Data Width –
64 Channel full channel mode.
32 Channel half channel mode.
Module “Merging” –
Five modules can be “merged” to make up
to a 320 channel module. Merged modules
exhibit the same depth as the lesser of the
five individual modules.
Number of Mainframe Slots Required – 2.
Data Rate –
Internal Clock:
0.5 Hz to 134 MHz full channel mode.
1.0 Hz to 268 MHz half channel mode.
External Clock:
DC to 134 MHz full channel mode.
DC to 268 MHz half channel mode.
External Clock Input –
Polarity: positive or negative.
Threshold: –2.56 V to +2.54 V, nominal;
programmable in 20 mV increments.
Sensitivity: <500 mV
Impedance: 1 kΩ terminated to ground.
Data Depth –
256 Kb full channel/512 Kb half channel.
1 Mb full channel/2 Mb half channel (optional).
Pattern Sequencing
Characteristics
Blocks – Separate sections of pattern program
that are output in a user definable order by the
Sequencer. Block pattern depth can be from 40
sequences (full channel mode) or 80 sequences
(half channel mode) up to the entire depth of
the TLA7PG2. A maximum of 4,000 Blocks may
be defined.
Sequencer – A 4,000 line memory that allows the
user to pick the output order of individual Blocks.
Each line in the sequencer allows the definition of
a Block to be output, a Repeat Count for that Block,
A Wait For event condition for the Block, the Signal
state for that Block (asserted or unasserted), and
a Jump If event condition, with a sequence line to
jump to if the condition is satisfied.
.
p-p
Sub-sequences – Up to 50 contiguous lines of
the Sequencer memory may be defined as a Subsequence. A Sub-sequence can then be treated
like a block. (Example: 15 Sequences of Blocks
are defined as Sub-sequence A1. Now any line in
the Sequencer can output A1. Five calls to Subsequence A1 will be flattened out to 75 sequences
at run time).
Jump If – Jumps to the specified sequence if
a user defined event is true. The user defined
event is a boolean combination of the eight
external event input.
Wait For – Pattern output is paused until the user
defined event is true. One Wait For may be defined
for every Block.
Assert Signal – One of the four inter-module
signals is selected to be controlled from the pattern
generator program. Signals may be asserted and
unasserted allowing true interaction with the logic
analyzer modules and with other pattern generator
modules. Signal action (assert or unassert) may be
defined for every Block.
Repeat Count – The sequence is repeated from
1 to 65,536 times. Infinite may also be selected.
One Repeat Count may be defined for every block.
Note that a repeat value of 10,000 takes one
sequence line in memory, not 10,000.
Easily Create TLA7PG2 Stimulus Files — The TLA7PG2 Pattern Generator stimulus can be created
from a mixture of VHDL and Verilog test benches, simulation waveforms, real world data acquired by
a logic analyzer, and waveforms created within SynaptiCAD’s timing diagram editing environment.
Step – While in Step mode, the TLA7PG2, the user
can manually satisfy (i.e., click an icon) Wait For and
Jump conditional events. This allows the user to
debug the logic flow of the program’s sequencing.
Initialization Block – The unconditional Jump
command allows the user to implement an
equivalent function.
Logic Analyzer/Pattern Generator Connectivity
to Simulation Environments – The TLA600 and
TLA700 Series logic analyzers capture waveform
data in a form that can be read by SynaptiCAD
WaveFormer Pro, VeriLogger Pro, and TestBencher
Pro software tools. SynaptiCAD’s tools can convert
the logic analyzer waveform data into stimulus
vectors for VHDL, Verilog, SPICE, ABEL, and pattern
generators including the TLA7PG2.
SynaptiCAD’s WaveFormer Pro product offers a
timing diagram editing environment that enables
stimulus to be created using a combination of
graphically drawn signals, timing parameters that
constrain edges, clock signals, and temporal and
Boolean equations for describing complex, quasirepetitive signal behavior.Advanced operations
on signals such as time scaling and shifting, and
block copy and pasting of signal behavior over
an interval of time are also supported.
2
Logic Analyzer Module
•
www.tektronix.com/logic_analyzers
Rise/Fall Time (20% to 80%)
Timing values measured Timing values measured
using 75 Ω termination using 75 Ω termination
(internal to probe), (internal to probe),
1MΩ + <1 pF load 510 Ω + 51 pF load
and VOHset to 5.0 V. and VOHset to 5.0 V.
Clock/Strobe Output
Rise 640 ps typical 6.5 ns typical
Fall 1.1 ns typical 6.3 ns typical
Data Output
Rise 680 ps typical 5.2 ns typical
Fall 2.9 ns typical 4.5 ns typical
Tektronix Logic Analyzers
TLA7PG2 Pattern Generator Module
P6471 ECL Probe
Output Type –
100E151 for data output.
100EL16 for strobe output.
100EL04 for clock output.
All outputs are unterminated.
Rise/Fall Time (20% to 80%)
Timing values measured using 51 Ω to –2.0 V.
Clock Output
Rise 320 ps typical
Fall 330 ps typical
Data Output
Rise 1200 ps typical
Fall 710 ps typical
Strobe Output
Rise 290 ps typical
Fall 270 ps typical
Common to P6470 TTL/CMOS,
P6471 ECL, P6473 LVDS,
P6474 LVCMOS Probes
Number of Data Outputs –
16 in Full Channel Mode.
8 in Half Channel Mode.
Number of Clock Outputs – 1. (Only one of Clock
Output and Strobe Output can be enabled.)
Number of Strobe Outputs – 1. (Only one of Clock
Output and Strobe Output can be enabled.)
Clock Output Polarity – Positive.
Strobe Type – RZ only.
Strobe Delay – Zero or Trailing Edge.
P6470 TTL/CMOS Probe
Output Type –
HD74LVC541A for Data Output.
HD74LVC244A for Clock/Strobe Output.
Output Voltage (nominal, load: 1 MΩ)–
: 2.0 V to 5.5 V, tri-stateable, programmable
V
OH
in 25 mV increments.
:0V.
V
OL
Data Output Skew –
<510 ps typical between all data output pins of all
modules in the mainframe after inter-module skew
is adjusted manually.
<480 ps typical between all data output pins of
single probe.
Data Output to Strobe Output Delay – 1.7 ns
typical when strobe delay set to zero.
Data Output to Clock Output Delay – 2.4 ns typical.
External Clock Input to Clock Output Delay –
Full channel mode: 61.5 ns typical.
Half channel mode: 61.5 ns typical.
Number of External Event Inputs – 1.
Number of External Inhibit Inputs – 1.
External Inhibit Input to Output Enable Delay –
34 ns typical for Data Output.
External Inhibit Input to Output Disable Delay –
86 ns typical for Data Output.
Probe D Data Output to Output Enable Delay –
(for Internal Inhibit) 7 ns typical for Data Output.
Probe D Data Output to Output Disable Delay –
(for Internal Inhibit) 8 ns typical for Data Output.
External Event Input to Clock Output Setup
(for inhibit) (event-filter: off) –
Full channel mode: 1.5 clocks + 150 ns typical.
Half channel mode: 2 clocks + 150 ns typical.
External Event Input and Inhibit Input –
Input Type: 74LVC14A.
Minimum Pulse Width: 100 ns.
Data Output Skew –
<170 ps typical between all data output pins of all
modules in the mainframe after inter-module skew
is adjusted manually.
<140 ps typical between all data output pins of
single probe.
Data Output to Strobe Output Delay –
2.94 ns typical when strobe delay set to zero.
Data Output to Clock Output Delay –
780 ps typical.
External Clock Input to Clock Output Delay –
51 ns typical.
Number of External Event Inputs – 2.
External Event Input –
Input Level: ECL.
Input Type: 10H116.
Minimum Pulse Width: 50 ns.
Logic Analyzer Module
•
www.tektronix.com/logic_analyzers
3
Tektronix Logic Analyzers
TLA7PG2 Pattern Generator Module
P6472 PECL/LVPECL Probe
Number of Data Outputs – 8 in full channel mode
or half channel mode.
Number of Clock Outputs – 1. (Only one of clock
output and strobe output can be enabled.)
Number of Strobe Outputs – 1. (Only one of clock
output and strobe output can be enabled.)
Number of External Event Inputs – 2.
Number of External Inhibit Inputs – 0.
Clock Output Polarity – Positive.
Strobe Type – RZ only.
Strobe Delay – Zero or Trailing Edge.
Output Type –
100EP90 for data output.
100EP90 for clock/strobe output.
Rise/Fall Time (20% to 80%)
Rise 330 ps typical
Fall 970 ps typical
Output Voltage Level – PECL, LVPECL.
Data Output Skew –
<385 ps between all data output pins of all
modules in the mainframe after inter-module
skew is adjusted manually.
<370 ps between all data output pins of all
probes of a single module.
<340 ps between all data output pins of a
single probe.
Data Output to Strobe Output Delay – +2.93 ns
when strobe delay set to zero.
Data Output to Clock Output Delay – +1.12 ns.
External Clock Input to Clock Output Delay –
50 ns.
Event Input Voltage Level – PECL, LVPECL.
Input Type – 100EL91, unterminated.
Minimum Pulse Width – 150 ns.
P6473 LVDS Probe
Number of External Event Inputs – 1.
Number of External Inhibit Inputs – 1.
Output Type –
LVDS (TIA/EIA-644 compatible) for data output.
LVDS (TIA/EIA-644 compatible) for clock/strobe output.
Rise/Fall Time (20% to 80%)
Rise 910 ps typical
Fall 750 ps typical
Data Output Skew –
<365 ps between all data output pins of all
modules in the mainframe after inter-module
skew is adjusted manually.
<350 ps between all data output pins of all
probes of a single module.
<320 ps between all data output pins of a
single probe.
Data Output to Strobe Output Delay – –280 ps
when strobe delay set to zero.
Data Output to Clock Output Delay – 1.2 ns.
External Clock Input to Clock Output Delay –
55 ns.
External Inhibit to Output Enable Delay – 9 ns
for data output.
External Inhibit Input to Output Disable Delay –
12 ns for data output.
Probe D Data Output to Output Enable Delay –
2 ns for data output.
Probe D Data Output to Output Disable Delay –
5 ns for data output.
External Event Input to Clock Output Setup –
Full Channel Mode: 1.5 Clocks + 180 ns.
Half Channel Mode: 2 Clocks + 180 ns.
External Event Input and Inhibit Input –
Input Type: LVDS, positive true.
Minimum Pulse Width: 150 ns.
P6474 LVCMOS Probe
Number of External Event Inputs – 2.
Number of External Inhibit Inputs – 1.
Output Type – 74AVC16244 for data, clock,
strobe outputs.
Series Terminator Resistor – 75 Ω standard.
43, 100, and 150 Ω optional.
Rise/Fall Time (20% to 80%)
Load: 1 MΩ + <1 pF
Rise 1.2 ns
Fall 610 ps typical
Load: 512 Ω + 50 pF
Rise 3.4 ns
Fall 3.2 ns
Output Voltage Level –
1.2 V to 3.3 V, 25 mV step, into 1 MΩ.
Data Output Skew –
<590 ps between all data output pins of all
modules in the mainframe after inter-module
skew is adjusted manually.
<500 ps between all data output pins of all
probes of a single module.
<460 ps between all data output pins of a
single probe.
Data Output to Strobe Output Delay – 460 ps
when strobe delay set to zero.
Data Output to Clock Output Delay – 1.84 ns.
External Clock Input to Clock Output Delay –
55 ns.
External Inhibit to Output Enable Delay – 36 ns
for data output.
External Inhibit Input to Output Disable Delay –
18 ns for data output.
4
Logic Analyzer Module
•
www.tektronix.com/logic_analyzers
Tektronix Logic Analyzers
TLA7PG2 Pattern Generator Module
Probe D Data Output to Output Enable Delay –
6 ns for data output.
Probe D Data Output to Output Disable Delay –
7 ns for data output.
External Event Input to Clock Output Setup –
Full Channel Mode: 1.5 clocks + 180 ns.
Half Channel Mode: 2 clocks + 180 ns.
External Event Input and Inhibit Input –
74AVC16244, Positive True, 1 kΩ to ground.
of the input receiver is variable and is
The V
cc
the same as the output driver.
Minimum Pulse Width: 150 ns.
P6475 Variable Probe
Rise/Fall Time (20% to 80%)
Load: 1 MΩ + <1 pF
Rise 550 ps
Fall 640 ps
Load: 512 Ω +50 pF
Rise 430 ps
Fall 510 ps
Output Voltage Level –
: –3 V to 6.5 V, 10 mV step, into 1 MΩ.
V
OL
: –2.5 V to +7 V, 10 mV step, into 1 MΩ.
V
OH
Output Voltage Swing – 250 mV
p-p
to 9 V
.
p-p
Output Voltage Control –
Ch. 0 to Ch. 5: Common.
Ch. 6 to Ch. 7, clock: Independent.
Accuracy – ±3% of value ±0.1 V.
Delay Channels – Ch. 6 and Ch. 7 (Independent).
Delay Time – 0 ns to 50 ns with reference to Ch. 0.
Ch. 6 Output Modes –
Normal.
Ch. 6 OR Ch. 7.
Ch. 6 AND Ch. 7.
Ch. 6 OR (NOT Ch. 7).
Ch. 6 AND (NOT Ch. 7).
Delay Accuracy –
±(3% of Delay Time) ±0.8 ns (to Ch. 0).
(At maximum slew rate setting.)
Slew Rate Control – 0.5 V/ns to 2.5 V/ns,
100 mV/ns step.
Data Output Skew –
<295 ps between all data output pins of all
modules in the mainframe after inter-module
skew is adjusted manually.
<280 ps between all data output pins of all
probes of a single module.
<250 ps between all data output pins of a
single probe.
Data Output to Clock Output Delay – 940 ps.
External Clock Input to Clock Output Delay –
62 ns.
Number of External Event Inputs – 2.
Number of External Inhibit Inputs – 1.
External Inhibit to Output Enable Delay – 30 ns
for data output.
External Inhibit Input to Output Disable Delay –
28 ns for data output.
Probe D Data Output to Output Enable Delay –
–100 ps for data output.
Probe D Data Output to Output Disable Delay –
–4.4 ns for data output.
External Event Input to Clock Output Setup –
Full Channel Mode: 1.5 Clocks + 180 ns.
Half Channel Mode: 2 Clocks + 180 ns.
External Event Input and Inhibit Input –
Polarity: Positive True.
Impedance: 1 kΩ to ground.
Threshold Level: –2.5 V to +2.5 V, Event and Inhibit
are independent.
Threshold Resolution: 20 mV.
Minimum Pulse Width: 150 ns.
Safety – CSA C22.2 No. 1010.1, EN61010-1,
IEC61010-1, UL 3111-1.
Physical Characteristics
Dimensions mm in.
Height 262 10.3
Width 61 2.4
Depth 381 15
Weight kg lb.
Net 3 6.5
Shipping 6.2 13.5
P6470 Probe Cable Length – 1.6 m (5 ft.).
P6471 Probe Cable Length – 1.6 m (5 ft.).
P6472 Probe Cable Length – 1.6 m (5 ft.).
P6473 Probe Cable Length – 1.6 m (5 ft.).
P6474 Probe Cable Length – 1.6 m (5 ft.).
P6475 Probe Cable Length – 1.6 m (5 ft.).
Logic Analyzer Module
•
www.tektronix.com/logic_analyzers
5
Tektronix Logic Analyzers
TLA7PG2 Pattern Generator Module
Ordering Information
TLA7PG2
64-Channel pattern generator module, 134 MHz data rate, 256 Kb depth
(please select probe option below).
Includes: Four probe cables, certificate of calibration, one year warranty
(return to Tektronix), and user manual.
Options
Opt. 1C – Add 168 SMT KlipChip™grabber tips.
Opt. 1M – Increase to 1 Mb depth.
Probes are sold separately.
TLA7PG2 Pattern Generator Probes
Probes are sold separately.
Other Accessories
TLA7PG2 Pattern Generator Module Performance Verification and Adjustment
Fixture – Order 067-A018-00.
TLA7PG2 Pattern Generator Module Service Manual (includes performance
verification and adjustment procedures) – Order 071-0714-01.
TLA700 Series Pattern Generator Module(s)
Upgrades
You can increase the memory depth of most existing TLA700 Series pattern
generator modules. You can also install a TLA7PG2 pattern generator module
into an existing TLA714/715/720/721/7XM maiframe.
Please refer to the TLA Family Upgrade Guide for further details.
TLA7PG2 Service Options
Opt. R3 – Repair Service 3 Years.
Opt. R5 – Repair Service 5 Years.
Opt. IN – Product Installation Service.
P6470.
16-Channel TTL/CMOS Probe and Accessories
for TLA7PG2 Pattern Generator Module –
Order P6470.
Part Number Description
012-1581-00 2 each – 8-Channel leadsets
012-1580-00 1 each – 5-Channel leadset
012-1570-00 (optional – std. with TLA7PG2
module) probe cable
071-1017-01 Pattern Generator Probe
User Manual
6
Logic Analyzer Module
•
www.tektronix.com/logic_analyzers
P6471. P6472.
16-Channel ECL Probe and Accessories
for TLA7PG2 Pattern Generator Module –
Order P6471.
Part Number Description
012-1581-00 2 each – 8-Channel leadsets
012-1580-00 1 each – 5-Channel leadset
012-1570-00 (optional – std. with TLA7PG2
8-Channel PECL/LVPECL Probe and Accessories
for TLA7PG2 Pattern Generator Module –
Order P6472.
Part Number Description
012-1581-00 1 each – 8-Channel leadset
012-1580-00 1 each – 5-Channel leadset
012-1570-00 (optional – std. with TLA7PG2
module) probe cable
071-1017-01 Pattern Generator Probe
071-1017-01 Pattern Generator Probe
User Manual
module) probe cable
User Manual
Tektronix Logic Analyzers
TLA7PG2 Pattern Generator Module
P6473.
16-Channel LVDS Probe and Accessories
for TLA7PG2 Pattern Generator Module –
Order P6473.
Part Number Description
012-1581-00 2 each – 8-Channel leadsets
012-1580-00 1 each – 5-Channel leadset
012-1570-00 (optional – std. with TLA7PG2
module) probe cable
071-1017-01 Pattern Generator Probe
User Manual
P6474. P6475.
16-Channel LVCMOS Probe and Accessories
for TLA7PG2 Pattern Generator Module –
Order P6474.
Part Number Description
012-1581-00 2 each – 8-Channel leadsets
8-Channel Variable Probe and Accessories
for TLA7PG2 Pattern Generator Module –
Order P6475.
Part Number Description
012-1504-00 SMB-to-header coaxial
012-1580-00 1 each – 5-Channel leadset
012-1570-00 (optional – std. with TLA7PG2
012-1570-00 (optional – std. with TLA7PG2
module) probe cable
071-1017-01 Pattern Generator Probe
071-1017-01 Pattern Generator Probe
User Manual
012-A224-00 Time alignment cable
cable set
module) probe cable
User Manual
for use with
P6470/P6473/P6474
Logic Analyzer Module
•
www.tektronix.com/logic_analyzers
7
Tektronix Logic Analyzers
TLA7PG2 Pattern Generator Module
Contact Tektronix:
ASEAN / Australasia / Pakistan (65) 6356 3900
Austria +43 2236 8092 262
Belgium +32 (2) 715 89 70
Brazil & South America 55 (11) 3741-8360
Canada 1 (800) 661-5625
Central Europe & Greece +43 2236 8092 301
Denmark +45 44 850 700
Finland +358 (9) 4783 400
France & North Africa +33 (0) 1 69 86 80 34
Germany +49 (221) 94 77 400
Hong Kong (852) 2585-6688
India (91) 80-22275577
Italy +39 (02) 25086 1
Japan 81 (3) 6714-3010
Mexico, Central America & Caribbean 52 (55) 56666-333
The Netherlands +31 (0) 23 569 5555
Norway +47 22 07 07 00
People’s Republic of China 86 (10) 6235 1230
Poland +48 (0) 22 521 53 40
Republic of Korea 82 (2) 528-5299
Russia, CIS & The Baltics +358 (9) 4783 400
South Africa +27 11 254 8360
Spain +34 (91) 372 6055
Sweden +46 8 477 6503/4
Taiwan 886 (2) 2722-9622
United Kingdom & Eire +44 (0) 1344 392400
USA 1 (800) 426-2200
USA (Export Sales) 1 (503) 627-1916
For other areas contact Tektronix, Inc. at: 1 (503) 627-7111
Last Update March 01, 2004
8
Logic Analyzer Module
•
www.tektronix.com/logic_analyzers
Our most up-to-date product information is available at:
www.tektronix.com
Product(s) are manufactured
in ISO registered facilities.
Copyright © 2004, Tektronix, Inc. All rights reserved.Tektronix products are covered
by U.S. and foreign patents, issued and pending. Information in this publication
supersedes that in all previously published material. Specification and price change
privileges reserved. TEKTRONIX and TEK are registered trademarks of Tektronix,
Inc. All other trade names referenced are the service marks, trademarks or registered trademarks of their respective companies.
05/04 HB/WOW 52W-15056-3
Loading...