Compare Go Logic

Transcription

Compare Go Logic
October 15, 2014
Compare GoLogicXL™
Overview
GoLogicXL™ provides advanced logic analyzer features yet…
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GoLogicXL-36™ is about 1/4 the cost of Tektronix® TLA6401B
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GoLogicXL-72™ is about 1/4 the cost of Tektronix® TLA6402B
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GoLogicXL-36™ is about 1/8 the cost of Agilent® 16851A
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GoLogicXL-72™ is about 1/7 the cost of Agilent® 16852A
Laptop/computer not included
About the comparison tables
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The comparison tables illustrate how extremely cost effective the GoLogicXL is compared with Agilent® and
Tektronix® logic analyzer products offering similar capabilities.
The latest Agilent® and Tektronix® logic analyzer models were chosen to best match the GoLogicXL's features such
as channels, sampling rates, sample depths, triggering, and so forth. Flying lead set probes were selected for all logic
analyzers in this comparison. Memory options for competitor products were chosen to best match the GoLogicXL's
mid memory option. The GoLogicXL large memory upgrade doubles the maximum sample depths for an additional
$2,000 US.
Agilent® and Tektronix® logic analyzer models are self-contained. The GoLogicXL requires a laptop or desktop
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computer running Windows 8, 7, or Vista. This computer is not provided by NCI and is not factored into the prices
presented in the tables.
Competitor product prices are not presented here. Prices and specifications can change without notice, so the values
presented here cannot be warranted to be correct. Contact Agilent® and Tektronix® directly for latest prices and
specifications on their respective products. NCI® does not market or sell Agilent® or Tektronix® products.
All prices are US dollars. Shipping and taxes not included.
Prices and specifications are subject to change without notice.
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Keysight , Agilent , 16851A , 16852A , and Soft Touch are trademarks or registered trademarks of Agilent
Technologies and/or Keysight corporation in the United States and/or other countries.
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Tektronix , TLA6401B , TLA6402B , and MagniVu are trademarks or registered trademarks of Tektronix
corporation in the United States and/or other countries.
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Mictor is a trademark or registered trademark of TE Connectivity / AMP corporation in the United States and/or other
countries.
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Windows is a registered trademark of Microsoft Corporation in the United States and other countries.
NCI is a registered trademark.
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GoLogic , GoLogicXL , GoLogicXL-36 , and GoLogicXL-72 , SuperView , and PinPoint are registered
trademarks of NCI, Inc.
© Copyright NCI. 1992-2015 All rights reserved.
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Table #1: GoLogicXL-36
October 15,
vs.2014
Tektronix® TLA6401B
GoLogicXL
TLA6401B
winner
system ($3,900) +
1 lead set ($800) =
$4,700 US
Contact Tektronix®
for current price
GoLogicXL
is about
1/4 the cost
Data channels
36
34
GoLogicXL
Max samples
all channels
134M
64M
GoLogicXL
Max samples
½ channels
268M
128M
GoLogicXL
Price
Max samples
on 9 chans
High speed
overlay
Normal timing
all channels
Normal timing
max
536M
†
†
†
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GoLogicXL
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SuperView
4 GHz; 16K samples
MagniVu
25 GHz; 128K samples
TLA6401B
1 GHz
1.6 GHz
TLA6401B
4 GHz
1.6 GHz
GoLogicXL
Transitional
all channels
500 MHz
1.6 GHz
TLA6401B
Transitional
max
1 GHz
1.6 GHz
TLA6401B
Differential
input mode
yes
no
GoLogicXL
Glitch capture
yes
yes
-
Max state clock
300 MHz
667 MHz
TLA6401B
Max clock chans
1 to 8
2
GoLogicXL
2
34
TLA6401B
0V to 3.3V
-2V to 4.5V
TLA6401B
Trigger levels
16
16
-
If/Then per level
6
16
TLA6401B
Value triggers
16
24
TLA6401B
Edge triggers
8
24
TLA6401B
Range triggers
8
8
-
Glitch triggers
yes
yes
-
Setup/Hold triggers
no
yes
TLA6401B
Selective storage
yes
yes
-
yes
yes
-
yes
-
Thresholds
Threshold range
™
Mictor probes
Connectorless
probes
PinPoint
™
† The GoLogicXL™ mid memory option is used for these comparisons. The large memory option doubles the sample depth.
™
Table #2: GoLogicXL-72
October 15,
vs.2014
Tektronix® TLA6402B
GoLogicXL
TLA6402B
winner
system ($5,900) +
††
2 lead sets ($1,600) =
$7,500 US
Contact Tektronix®
for current price
GoLogicXL
is about
1/4 the cost
Data channels
72
68
GoLogicXL
Max samples
all channels
67M
32M
GoLogicXL
Max samples
½ channels
134M
64M
GoLogicXL
Max samples
¼ chans
268M
-
GoLogicXL
-
GoLogicXL
Price
Max samples
on 9 chans
High speed
overlay
Normal timing
all channels
Normal timing
max
†
536M
†
†
†
™
™
SuperView
4 GHz; 16K samples
MagniVu
25 GHz; 128K samples
TLA6402B
1 GHz
1.6 GHz
TLA6402B
4 GHz
1.6 GHz
GoLogicXL
Transitional
all channels
500 MHz
1.6 GHz
TLA6402B
Transitional
max
1 GHz
1.6 GHz
TLA6402B
Differential
input mode
yes
no
GoLogicXL
Glitch capture
yes
yes
-
Max state clock
300 MHz
667 MHz
TLA6402B
Max clock chans
1 to 8
2
GoLogicXL
2
34
TLA6402B
0V to 3.3V
-2V to 4.5V
TLA6402B
Trigger levels
16
16
-
If/Then per level
6
16
TLA6402B
Value triggers
16
24
TLA6402B
Edge triggers
8
24
TLA6402B
Range triggers
8
8
-
Glitch triggers
yes
yes
-
Setup/Hold triggers
no
yes
TLA6402B
Selective storage
yes
yes
-
yes
yes
-
yes
-
Thresholds
Threshold range
™
Mictor probes
Connectorless
probes
PinPoint
™
† The GoLogicXL™ mid memory option is used for these comparisons. The large memory option doubles the sample depth.
†† Each GoLogicXL™ Flying lead set is $800 US.
™
Table #3: GoLogicXL-36
October 15, 2014
vs. Agilent® 16851A
GoLogicXL
16851A
winner
system ($3,900) +
1 lead set ($800) =
$4,700 US
Contact Agilent®
for current price
GoLogicXL
is about
1/8 the cost
Data channels
36
34
GoLogicXL
Max samples
all channels
134M
128M
-
Max samples
½ channels
268M
256M
-
-
GoLogicXL
SuperView
4 GHz; 16K samples
“Timing Zoom”
12.5 GHz; 256K samples
16851A
1 GHz
2.5 GHz
16851A
4 GHz
5 GHz
16851A
Transitional
all channels
500 MHz
2.5 GHz
16851A
Transitional
max
1 GHz
5 GHz
16851A
Differential
input mode
yes
yes
-
Glitch capture
yes
no
GoLogicXL
Max state clock
300 MHz
350 MHz
16851A
Max clock chans
1 to 8
2
GoLogicXL
2
34
16851A
0V to 3.3V
-5V to 5V
16851A
Trigger levels
16
8
GoLogicXL
If/Then per level
6
4
GoLogicXL
Value triggers
16
16
-
Edge triggers
8
4
GoLogicXL
Range triggers
8
8
-
Glitch triggers
yes
no
GoLogicXL
Setup/Hold triggers
no
no
-
Selective storage
yes
yes
-
yes
yes
-
Price
Max samples
on 9 chans
High speed
overlay
Normal timing
all channels
Normal timing
max
Thresholds
Threshold range
™
Mictor probes
Connectorless
probes
536M
†
†
†
™
PinPoint
™
Soft Touch
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† The GoLogicXL™ mid memory option is used for these comparisons. The large memory option doubles the sample depth.
-
™
Table #4: GoLogicXL-72
October 15, 2014
vs. Agilent® 16852A
GoLogicXL
16852A
winner
system ($5,900) +
††
2 lead sets ($1,600) =
$7,500 US
Contact Agilent®
for current price
GoLogicXL
is about
1/7 the cost
Data channels
72
68
GoLogicXL
Max samples
all channels
67M
128M
16852A
256M
16852A
-
GoLogicXL
-
GoLogicXL
SuperView
4 GHz; 16K samples
“Timing Zoom”
12.5 GHz; 256K samples
16852A
1 GHz
2.5 GHz
16852A
4 GHz
5 GHz
16851A
500 MHz
2.5 GHz
16852A
1 GHz
5 GHz
16852A
yes
yes
-
yes
no
GoLogicXL
Max state clock
300 MHz
350 MHz
16852A
Max clock chans
1 to 8
2
GoLogicXL
2
34
16852A
0V to 3.3V
-5V to 5V
16852A
Trigger levels
16
8
GoLogicXL
If/Then per level
6
4
GoLogicXL
Value triggers
16
16
-
Edge triggers
8
4
GoLogicXL
Range triggers
Glitch triggers
8
yes
8
no
GoLogicXL
Setup/Hold triggers
no
no
-
Selective storage
yes
yes
-
yes
yes
-
Price
Max samples
½ channels
Max samples
¼ chans
Max samples
on 9 chans
High speed
overlay
Normal timing
all channels
Normal timing
max
Transitional
all channels
Transitional
max
Differential
input mode
Glitch capture
Thresholds
Threshold range
™
Mictor probes
Connectorless
probes
†
134M
268M
536M
†
†
†
™
PinPoint
™
Soft Touch
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† The GoLogicXL™ mid memory option is used for these comparisons. The large memory option doubles the sample depth.
†† Each GoLogicXL™ Flying lead set is $800 US.
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Glossary
October 15, 2014
Normal Timing mode oversamples the input signals similar to how an oscilloscope recreates an analog
signal. However, only the logic-levels are captured rather than voltage-levels.
Transitional Timing mode is identical to Normal Timing except the logic analyzer stores the input signals
to memory only when a change occurs. This eliminates all redundant samples between signal-changes. A
timestamp is stored with each sample so the elapsed time between signal-changes is known.
High-speed overlay is a relatively narrow burst of high-speed Normal Timing trace captured alongside
the main trace capture across all channels. The overlay data provides a relatively small window of higher
resolution trace which is centered at the trigger.
Differential input mode combines two input signals to produce one signal. This halves the available
input channels. For example, the GoLogicXL-72 captures up to 36 signals when differential input mode is
active. Unlike Keysight/Agilent and Tektronix analyzers, the GoLogicXL does not require special probes
to capture differential signals.
Glitch triggers: While running, the logic analyzer triggers if two or more transitions occur on a signal
between logic analyzer samples. Channels that detect glitch events can be enabled or disabled. Likewise,
the glitch detection can be enabled or disabled on different trigger sequence levels.
Glitch capture is a special sampling mode where the logic analyzer marks all glitch events in the trace
data. Since glitches are between samples, no pulse is visible in the timing diagrams. Instead, a special
mark is drawn on the data to show where the glitch occurred.
Setup/Hold triggers allow a setup/hold condition to be specified. While running, the logic analyzer
triggers when the setup/hold condition for any channel is violated.
Selective storage: While running, each level of the trigger sequence can store all incoming data to
memory, store only data that matches certain patterns, or can ignore all incoming data.
Flying lead set probe: The most flexible probing option. Individual channels can be connected to a
variety of input types. Normally pressed directly onto 25 mm (0.10”) header pins, gripper probes can also
be used to attach each input to chip pins or exposed wires. The GoLogicXL standard lead sets are
coaxially shielded, have a ground input per each channel, and are color-coded for fast access.
Mictor is an acronym for Matched Impedance ConnecTOR. This board-to-board connector was
developed by TE Connectivity / AMP corporation in the 1990s. The 38-pin variant of the connector is
commonly used by logic analyzers to probe high-speed signals due to its low impedance nature. The
pads for the female Mictor connector are included in a device’s printed circuit layout. The female Mictor
connector can then be soldered to the device. The NCI Mictor probes are pin-compatible with similar
probes from Keysight/Agilent and Tektronix.
Connectorless probing is a high-speed, low-capacitive-load system. Two rows of pads are designed into
the PCB. Four though-holes around the pads allow a “retention module” to be attached to the PCB when
needed. The logic analyzer probe is inserted into the retention module. Tiny springs press probes directly
against the pads. The NCI PinPoint™ probes are pin-compatible with similar probes from Keysight/Agilent
and Tektronix.