Agilent 8012A Data Sheet

Infiniium 54800 Series Oscilloscope Probes, Accessories, and Options
Selection Guide Data Sheet
Table of Contents
Probe Compatibility Table ................................................................2
General Purpose Probes Overview ................................................3
116XA Family Passive Voltage...................................................4
High-Frequency Voltage Probes Overview ..................................9
1130A/31A/32A/34A InfiniiMax High-Performance
Active Probe System..................................................................10
1168A/69A InfiniiMax II High-Performance
Active Probe System..................................................................13
1155A Active Single-Ended Voltage........................................16
1156A/57A/58A High-Bandwidth, Active Voltage ..............18
1163A Resistive Divider...............................................................4
54006A Resistor Divider Probe ................................................21
Differential Voltage Probes Overview.........................................22
1130A/31A/32A/34A InfiniiMax High-Performance
Active Probe System..................................................................10
1168A/69A InfiniiMax II High-Performance
Active Probe System..................................................................13
1153A Low-Bandwidth Active Differential Voltage..............23
Current Probes Overview...............................................................26
1146A ac/dc Current .................................................................27
1147A High Bandwidth ac/dc Current ...................................29
High-Voltage Passive Probes Overview .....................................31
10076A (100:1)............................................................................32
N2771A (1000:1).........................................................................33
Mixed-Signal Oscilloscope Logic Probe Kit..............................34
E5396A Half-Size Soft Touch Connectorless Logic Probe.......35
Probing Accessories.......................................................................36
Wedge Adapters.........................................................................36
0.5 mm IC Clips, PC Board Mini-Probe Sockets ....................37
EZ-Probe Positioner ...................................................................38
Logic Analyzer/Oscilloscope Time Correlation........................39
VoiceControl .....................................................................................40
Input Devices and Storage Devices.............................................41
E2610A Keyboard, E2609B Rackmount Kit,
1184A Testmobile.......................................................................41
Infiniium Advanced Analysis Options .........................................42
Support, Services, and Assistance..............................................43
To ensure that you have the tools for dependable oscilloscope measurements, Agilent Technologies offers a wide range of oscilloscope probes and accessories. Each is designed for a specific measurement need because the physical and electrical quality of the connection can make the difference between a good measurement and a bad one.
For ordering information when replac­ing your probe or probe accessory:
Refer directly to the page number listed in the table of contents for your probe model.
To assist you in selecting the proper probe for your application:
Use our probe compatibility table below to find the probes that are recommended for use with your Infiniium scope.
Or refer to our probe overview page at the beginning of each section in the table of contents explaining what the different probe types are and the models available for your Infiniium.
Probe Compatibility Table
Agilent Infiniium Oscilloscope Model
Probe Type Probe Model 54830B/31B/32B/33A/ 54835A/45A/ 54810A/15A/ 54852A/53A/54A/55A
30D/31D/32D/33D 45B/46A/46B 20A/25A and DSO80000 Series
General Purpose Passive 1160A, 10:1 Incompatible Incompatible Recommended Incompatible Page 4
1161A, 10:1 Compatible Recommended Incompatible Compatible [1]
1162A, 1:1 Recommended Recommended Recommended Compatible [1]
1164A, 10:1 Incompatible Incompatible Recommended Incompatible
1165A, 10:1 Recommended Compatible Incompatible Incompatible
Low Mass Passive 1171A, 10:1 Recommended Recommended Incompatible Compatible [1] Page 7
Active Single-Ended 1155A, 750 MHz Recommended Compatible Recommended Compatible Page 10, 16, 18
1156A, 1.5 GHz Recommended Recommended Recommended Compatible
1157A, 2.5 GHz Compatible Recommended Compatible Compatible
1158A, 4 GHz Compatible Recommended Compatible Compatible
Resistive Divider 1163A, 10:1 Recommended Recommended Recommended Incompatible Page 4, 21
54006A, 10:1 or 20:1 Compatible [2] Recommended [2] Compatible [2] Recommended [2]
Active Differential 1153A, 200 MHz Recommended Recommended Recommended Compatible Page 10, 13, 23
1130A, 1.5 GHz [6] Recommended [3] Compatible Incompatible Compatible
1131A, 3.5 GHz [6] Recommended [3] Recommended [4] Incompatible Recommended
1132A, 5 GHz [6] Compatible [3] Compatible [4] Incompatible Recommended
1134A, 7 GHz [6] Compatible [3] Compatible [4] Incompatible Recommended
1168A, 10 GHz [6] Compatible [8] Incompatible Incompatible Recommended [8]
1169A, 12 GHz [6] Compatible [8] Incompatible Incompatible Recommended [8]
Current 1146A, 100 kHz Recommended Recommended Recommended Compatible [1] Page 27, 29
1147A, 50 MHz Recommended Recommended Recommended Incompatible [7]
High Voltage 10076A, 4 kV Recommended Recommended Recommended Compatible [1] Page 32, 33
N2771A, 15 kV Recommended Recommended Recommended Compatible [1]
Mixed-Signal Oscilloscope 54826-68701 Recommended [5] Incompatible Incompatible Incompatible Logic Probe Kit Page 34
Half-Size Soft Touch E5396A Recommended [5] Incompatible Incompatible Incompatible Connectorless Logic Probe Page 35
Table 1.1. Agilent probes compatible with Infiniium oscilloscopes.
2
[1] Requires E2697A 1 Minput adapter. The E2697A includes one 10073C
general-purpose 500 MHz, 10:1 passive probe. [2] Requires E2695A SMA-BNC adapter. [3] Requires 54830 Series system software revision A.03.10 or higher. For A.02.xx or
lower, order N5383A to upgrade system software. [4] Requires 54845/46 system software revision A.04.50 or higher. [5] Recommended for 54830D/31D/32D/33D mixed signal oscilloscopes only.
[6] Each 113XA and 1168A/9A probe amplifier supports both single-ended and
differential measurements.
[7] Order N2774A 50 MHz current probe with N2775A power supply that also requires
the E2697A 1 Minput adapter.
[8] Requires 54830 Series, 54850 Series, DSO80000 Series system software revision
A.03.90 or higher. For A.02.xx or lower, order N5383A to upgrade system software.
General Purpose Probes Overview
Passive voltage probes are used for general purpose probing and are made with passive compo­nents only such as wires, con­nectors, capacitors and resistors (when attenuation is required). There are no active components such as transistors or amplifiers in the probe, and therefore pas­sive voltage probes do not need to be powered.
Model Probe Type Applications and Use Page
116XA Family Passive voltage General purpose, Infiniium replacement probes 4 (excluding the 1163A)
117XA Family Passive voltage Fine-pitched ICs, surface mount devices, and dense circuit boards 7
Passive Voltage Probe Advantages Limitations
116XA are rugged, economical, easy to use, 600 MHz maximum bandwidth have high dynamic range and high input resistance Higher capacitive loading than active probes
117XA feature low mass, low weight, low tip 500 MHz bandwidth capacitance compared to other passive probes Not as rugged as 116XA for browsing
Figure 2.1. Agilent 116XA standard Infiniium replacement probe.
Figure 2.2. Agilent 117XA low mass probe for fine-pitched ICs, SMDs, and dense circuit boards.
General purpose probes are available with attenuation ratios of 1:1, 10:1, and 20:1. The 10:1 passive voltage probe is the most commonly used probe, and is supplied as a standard accessory with all Infiniium oscilloscopes having bandwidths 600 MHz.
3
Built for Reliability
These general purpose replace­ment devices are built and tested for high reliability. Kevlar strengthener has been added to the probe cable for extra pull strength. Durable probe tips are replaceable.
The compact design significantly reduces the problem of probing densely populated integrated cir­cuit components or the character­istically minute conductors on printed circuit boards. These small lightweight probes allow measurements that were previ­ously quite difficult, while reduc­ing the danger of shorting. For tight probing areas, the probe handle can be unscrewed and pulled back along the cable.
When probing about the circuit in debug mode, the probes easily slip inside the included browsers. The browsers feature a crown
General Purpose Probes
Agilent 116XA Family Passive Voltage
• Standard replacement probes
for Infiniium scopes with bandwidths 600 MHz
• Rugged, economical, easy to use
• Compact design, removable probe
handle for tight probing areas
• Agilent 1163A, 500 Ω resistive
divider, 10:1 attenuation
Figure 2.3. Agilent 116XA family general purpose replacement probes.
point that digs into solder and avoids the danger of slipping off the test point and shorting to adjacent leads. A pogo pin allows hand movement on the probes without losing contact with the device under test.
The 116XA family probes are compatible with the AutoProbe interface, which completely con­figures the Infiniium oscilloscope for the probe. A snap-on BNC connector simplifies attaching the probe to the scope. Leads are
available for connecting to a wide variety of test points. See “Ordering Information” for a complete list.
Agilent 1163A Resistive Divider
Agilent 1163A features low capac­itive loading and wide bandwidth, resulting in very accurate timing measurements. Resistive divider probes are useful for probing low­voltage signals such as ECL cir­cuits, 50 transmission lines, and GaAs circuits.
Figure 2.4. No-slip browser crown point.
4
Specifications
System Model Bandwidth Division Scope Compensation Number Type of Probe (scope +probe) Ratio Input R Input C Input R Range Length
1160A High Impedance, 500 MHz 10:1 10 M 9 pF 1 MΩ 6 - 9 pF 1.5 m
Passive
1161A High Impedance, 500 MHz 10:1 10 M 10 pF 1 MΩ 12 - 14 pF 1.5 m
Passive
1162A High Impedance, 25 MHz 1:1 1 M 50 pF + scope 1 M n/a 1.5 m
Passive capacitance
1163A 500 Ω Resistive 1.5 GHz with 10:1 500 Ω 1.5 pF 50 Ω n/a 1.5 m
Divider scope model
54845A/B
1164A High Impedance, 500 MHz 10:1 10 M 10.5 pF 1 M 6 - 9 pF 2.0 m
Passive
1165A High Impedance, 600 MHz 10:1 10 M 10 pF 1 MΩ 12 - 14 pF 1.5 m
Passive typical with
54830B/31B/32B/33A
54830D/31D/32D/33D
Operating Characteristics
Approximate propagation delay 6.7 ns for 1160A/61A/62A/63A/65A probes
8.8 ns for 1164A probe
Maximum input voltage 300 V (dc + peak ac), CAT II
10 V (dc + peak ac), CAT I for 1163A only
Safety Meets IEC1010-2-31
Pulling strength (BNC to barrel) 12 lb static pull
Net weight 2.6 oz
Environmental Characteristics
Temperature (operating) 0° C to +55° C
Humidity (operating) Up to 95% relative humidity at 40° C
Altitude (operating) Up to 4,600 meters (15,000 ft.)
Shock 50 g (400 g tip only)
General Purpose Probes
Agilent 116XA Family Passive Voltage
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Ordering Information
Probes and Accessories
Part # Description Quantity
1160A 10:1, 10 MΩ, 1.5 m, miniature passive probe 1
1161A 10:1, 10 MΩ, 1.5 m, miniature passive probe 1
1162A 1:1, 1.5 m, miniature passive probe 1
1163A 10:1, 500 Ω, low C, 1.5 m, miniature passive probe 1
1164A 10:1, 10 MΩ, 2 m, miniature passive probe 1
1165A 10:1, 10 MΩ, 1.5 m, miniature passive probe 1
5063-2143 Probe tip to BNC (m) 1
IC clips: See “Probing Accessories”
Horizontal and vertical mini-probe sockets: See “Probing Accessories”
Wedge Probe Adapters: See “Probing Accessories”
Replacement Parts
Part # Description Quantity
5063-2135 General purpose retractable hook tip 2
5063-2140 Alligator ground lead 2
5063-2120 Socketed ground lead 1
5063-2115 Browser 1
5063-2147 Dual lead adapter 1 0
5063-2149 SMD clips 5
01160-68701 Accessory kit (includes four spring grounds, 1
four browser pogo pins, four barrel insulators, one screwdriver)
5063-2136 1160A probe tip, red 5
5063-2137 1161A probe tip, brown 5
5063-2138 1162A probe tip, black 5
5063-2139 1163A probe tip, grey 5
5063-2151 1164A probe tip, orange 5
5063-2137 1165A probe tip, brown 5
One probe
Two probe tips
Two barrel insulators
One browser
One general­purpose
retractable
hook tip
One
dual-lead
adapter
Two SMD clips
Four spring grounds
One alligator ground lead
One socketed ground lead
One screwdriver
One browser pogo pin (spare)
Probe Parts Supplied
Includes user’s guide and three-year warranty.
General Purpose Probes
Agilent 116XA Family Passive Voltage
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Suited for Today’s ICs
An exceptionally small and light probe tip (<1 gram) and an ultra thin cable make the 117XA family ideal for connecting to and prob­ing fine-pitch ICs, surface mount devices, and dense circuit boards.
The probe fits directly onto stan­dard board headers and IC clips. A range of accessories are avail­able for you to optimize interfac­ing with surface mount devices. Wedge Probe Adapters make con­venient and reliable connections to TQFP/PQFP package leads. See “Ordering Information” for a com­plete list of accessories.
General Purpose Probes
Agilent 117XA Family Low Mass, Passive Voltage
• Easy connection to fine-pitch ICs, SMDs, and dense circuit boards
• Light weight (< 1 gram), low mass probe tip
• 10:1 attenuation, capacitance < 10 pF (1171A)
Figure 2.5. Agilent 117XA family probes for fine-pitch ICs, surface mount devices, and dense circuit boards.
When probing about the circuit in debug mode, the probe easily slips inside the included browsers. The browsers feature a crown point that digs into solder and avoids the danger of slipping off the test point and shorting to adjacent leads. A pogo pin allows hand movement on the probes without losing contact with the device under test.
The 117XA probes are compatible with the AutoProbe interface, which completely configures the Infiniium oscilloscope for the probe. A snap-on BNC connector simplifies attaching the probe to the scope.
Specifications
System Model Bandwidth Division Scope Compensation Number Type of Probe (scope + probe) Ratio Input R Input C Input R Range Length
1171A High Impedance, 500 MHz 10:1 10 M 10 pF 1 MΩ 12 - 14 pF 1.4 m
Passive
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Specifications
Operating Characteristics
Approximate propagation delay 1171A: 6.5 ns
Maximum input voltage 40 V (dc + peak ac), CAT I
Safety Meets IEC1010-2-31
Pulling strength (BNC to probe tip) 12 lb static pull
Net weight 2.6 oz
Probe tip weight < 1 gram
Environmental Characteristics
Temperature (operating) 0° C to +55° C
Humidity (operating) Up to 95% relative humidity at 40° C
Altitude (operating) Up to 4,600 meters (15,000 ft.)
Shock 50 g (400 g tip only)
Ordering Information
Probes and Accessories
Part # Description Quantity
1171A 10:1, 10 MΩ, 1.4 m, low mass passive probe 1
IC clips: See “Probing Accessories”
Wedge Probe Adapters: See “Probing Accessories”
Replacement Parts
Part # Description Quantity
5063-2122 Browser 1
Probe Parts Supplied
Includes two IC clips, user’s guide, and one-year warranty.
Two pogo pins
One alligator ground lead
One socketed ground lead
Two probing pins
One ground extender
One probe
One browser
One screwdriver
One walking stick ground
General Purpose Probes
Agilent 117XA Family Low Mass, Passive Voltage
8
High-Frequency Voltage Probes Overview
Active voltage probes contain an active component, usually a field­effect transistor (FET), and there­fore need to be powered. A FET input has the advantage of pro­viding a very low input capaci­tance, typically from less than 1 pF to a few pF. This low capaci­tance results in a high input impedance on frequencies up to 7 GHz. With such low loading, active probes can be used on high-impedance circuits that would be seriously loaded by passive probes.
New InfiniiMax probe family.
The innovative InfiniiMax probe system provides either differential­or single-ended probing solutions for the most demanding connec­tion requirements, without sacri­ficing performance.
Figure 3.1. Agilent 1130A/31A/32A/34A InfiniiMax high-performance active probe.
Figure 3.2. Agilent 1156A/57A/58A active probes for signals up to 4 GHz.
Model Probe Type Applications and Use Page
1130A/31A/32A/34A Active Diff/SE Measure both differential and single-ended signals up to 7 GHz 10
1155A Active Single-Ended Measure fast transitions on low-voltage signals, 2 channels 16
1156A/57A/58A Active Single-Ended Measure fast transitions on low-voltage signals up to 4 GHz 18
1163A Resistive divider Measure fast transitions on a wide range of signal voltages 4
54006A Resistive divider Low-cost alternative for high-frequency probing 21
High-Frequency Probe Advantages Limitations
Timing and voltage measurements more accurate at Active probes are more expensive than general purpose passive probes high bandwidths
Resistive divider probes cost less than active probes Relatively heavy resistive loading with resistive divider probes
Active probes are least intrusive to circuit under test, Active probes have lower dynamic range, lower maximum voltage and high input resistance are less rugged compared to passive probes
Resistive divider probes are passive probes. They feature low capacitive loading and accurate timing measurements with high­bandwidth signals at a much lower cost than active probes.
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High-Frequency Active Differential/Single-Ended Probe System
Agilent 1130A/31A/32A/34A InfiniiMax High-Performance Active Probe System
• The Agilent InfiniiMax 1130A series probe system supports
a wide variety of real-world applications with an exten­sive line up of probe heads and accessories. The accessories
can meet the most demanding mechanical access requirements. Small probe heads can be placed between densely packed PC boards. Solder-in sockets are available for signals that need frequent measurement. A dif­ferential SMA probe head is available to connect to fixtures that have SMA connections. A smart ergonomic design allows users to set the spacing between the probe pins (variable span). When not concerned with min­imum probe size, designers can use a browsing sleeve to make holding the probe more com­fortable. Both probe tips of the differential probe can “flex” to support various probing angles and target system characteristics (z-axis compliance). Innovative damped-wire accessories com­pensate for the inductance and capacitance associated with the leads, and prevent distor­tion of the measured signal.
• InfiniiMax 7 GHz, 5 GHz, 3.5 GHz, and 1.5 GHz probing system
• Each InfiniiMax probe amplifier supports both differential and single-ended measurements for a more cost-effective solution
• Unrivaled InfiniiMax probing accessories support browsing, solder-in, and socket use models at the maximum performance available
The Agilent InfiniiMax 1134A, 1132A, 1131A and 1130A probe systems provide 7 GHz, 5 GHz,
3.5 GHz and 1.5 GHz of band-
width respectively, and offer the following benefits:
• The new probes have a flat
frequency response over the entire bandwidth specification,
eliminating the distortion and loading that affect probes with in-band resonance. The probing system enables engineers to utilize their oscilloscope’s entire bandwidth without being limited to measuring only 50 trans­mission lines or using passive resistive divider probes that produce voltage measurement error and circuit loading. Designers can achieve system measurement bandwidths of
4.5 to 6 GHz even when manu­ally “browsing” with the probe. Solder-in probe heads and solder-in sockets provide even higher bandwidths.
Figure 3.3. InfiniiMax offers you the highest performance available for measuring differential and single-ended signals.
• The groundbreaking design of Agilent InfiniiMax 1130A probe system also enables users to make either single-ended or
differential measurements from a single probe amplifier,
depending on their choice of probe head and accessory. This can result in significant savings in cost and time. The common mode rejection of the differen­tial probe head reduces a mea­surement’s noise floor. Overall, the Agilent 1130 series probing system delivers unmatched performance, accuracy and connectivity.
InfiniiMax: The World’s Best High-Speed Oscilloscope Probing System
EDN Magazine has awarded Agilent’s InfiniiMax active probe system the 2002 Innovation of the Year Award.
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High-Frequency Active Differential/Single-Ended Probe System
Agilent 1130A/31A/32A/34A InfiniiMax High-Performance Active Probe System
Specifications
Operating Characteristics
Probe bandwidth* 1134A: > 7 GHz
1132A: > 5 GHz 1131A: > 3.5 GHz 1130A: > 1.5 GHz
Rise and fall time (10% to 90%) 1134A: 60 psec
1132A: 86 psec 1131A: 100 psec 1130A: 233 psec
System bandwidth (–3 dB) 1134A with 54855A: 6 GHz
1132A with 54854A: 4 GHz 1131A with 54853A: 2.5 GHz 1131A with 54852A: 2 GHz 1130A with 54832B/D, 33A/D: 1 GHz
Input capacitance** Cm = 0.1 pF Cm is between tips.
Cg = 0.34 pF Cg is to ground for each tip. Cdiff = 0.27pF Differential mode capacitance = Cm + Cg/2 Cse = 0.44 pF Singe-ended mode capacitance = Cm + Cg
Input resistance* Differential mode resistance = 50 k±1%
Single-ended mode resistance = 25 k±1%
Input dynamic range ±2.5 V
Input common mode range ±6.75 V dc to 100 Hz; ±1.25 V >100 Hz
Maximum signal slew rate 18 V/ns when probing a single-ended signal
30 V/ns when probing a differential signal
DC attenuation 10:1 ± 3% before calibration on oscilloscope
10:1 ± 1% after calibration on oscilloscope
Zero offset error referred < 30 mV before calibration on oscilloscope to input < 5 mV after calibration on oscilloscope
Offset range* ± 12.0 V when probing single-ended
Offset accuracy < 3 % setting before calibration on oscilloscope
< 1 % setting after calibration on oscilloscope
Noise referred to input 3.0 mVrms
Propagation delay ~6 nsec (This delay can be deskewed relative to
other signals.)
Maximum input voltage* 30 Vpeak, CAT I
ESD tolerance > 8 kV from 100 pF, 300 HBM
* Denotes warranted specifications, all others are typical. ** Measured using the probe amplifier and solder-in differential probe head with full bandwidth resistors.
Figure 3.4. Swept frequency response.
Figure 3.5. Common mode rejection vs. frequency.
Example of characterized performance plots: differential solder-in probe head
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6
3
0
dB
-3
-6
-9
-12
8
10
0
-10
-20
dB
-30
-40
-50
-60
8
10
9
10
Frequency (Hz)
9
10
Frequency (Hz)
10
10
10
10
High-Frequency Active Differential/Single-Ended Probe System
Agilent 1130A/31A/32A/34A InfiniiMax High-Performance Active Probe System
Ordering Information
Probe Amplifier Model
Part # Description Quantity
1134A 7 GHz InfiniiMax Probe Amplifier (order one or more probe heads or connectivity kits per amplifier). 1
1132A 5 GHz InfiniiMax Probe Amplifier (order one or more probe heads or connectivity kits per amplifier). 1
1131A 3.5 GHz InfiniiMax Probe Amplifier (order one or more probe heads or connectivity kits per amplifier). 1
1130A* 1.5 GHz InfiniiMax Probe Amplifier (order one or more probe heads or connectivity kits per amplifier). 1
* Note: Requires 54830 Series system software revision A.03.10 or higher. For A.02.xx or lower, order N5383A to upgrade system software.
Connectivity Kits Model
Part # Description Quantity
E2669A InfiniiMax connectivity kit for differential/single-ended measurements. Includes one 1
differential browser, four solder-in differential probe heads and two socketed differential probe heads. Includes all necessary accessories.
E2668A InfiniiMax connectivity kit for single-ended measurements. Includes one single-ended browser, 1
one solder-in probe heads and one socketed probe heads. Includes all necessary accessories.
Individual Probe Heads
Part # Description Quantity
E2675A InfiniiMax differential browser probe head and accessories. Includes 20 replaceable tips and 1
ergonomic handle. Order E2658A for replacement accessories.
E2676A InfiniiMax single-ended browser probe head and accessories. Includes 2 ground collar 1
assemblies, 10 replaceable tips, a ground lead socket and ergonomic handle. Order E2663A for replacement accessories.
E2677A InfiniiMax differential solder-in probe head and accessories. Includes 20 full bandwidth and 1
10 medium bandwidth damping resistors. Order E2670A for replacement accessories.
E2678A InfiniiMax single-ended/differential socketed probe head and accessories. Includes 48 full 1
bandwidth damping resistors, 6 damped wire accessories, 4 square pin sockets and socket heatshrink. Order E2671A for replacement accessories.
E2679A InfiniiMax single-ended solder-in probe head and accessories. Includes 16 full bandwidth and 1
8 medium bandwidth damping resistors and 24 zero ohm ground resistors. Order E2672A for replacement accessories.
E2695A Differential SMA probe head. Includes semi-rigid coax to change span between SMA connectors. 1
Adapters
Part # Description Quantity
N1022A Adapts 113X/115X active probes to 86100 Infiniium DCA. 1
E2696A General purpose probing solution for use with instruments such as spectrum analyzers and 1
network analyzers. Includes N1022A probe adapter, N1022-60014 connection adapter, and 01143-61602 probe power extension cable. Items that must be purchased separately for a complete probing solution are an InfiniiMax probe amplifier and desired probe heads, and 1143A probe power supply.
12
13
Two new high-bandwidth InfiniiMax II Series probe amplifiers have been added to the InfiniiMax product line. InfiniiMax I probe amplifiers and probe heads can also be used with DSO 80000 Series scopes for lower performance applications.
High-Frequency Active Differential/Single-Ended Probe System
Agilent 1168A/69A InfiniiMax II High-Performance Active Probe System
12 GHz Hi-BW differential SMA probe
head provides maximum bandwidth for SMA fixtured differential pairs.
12 GHz Hi-BW solder-in differential probe head provides maximum bandwidth and
minimizes capacitive loading to 210 fF. Variable spacing from 0.2 to 3.3 mm (8 to 130 mills).
12 GHz Hi-BW differential browser provides maximum bandwidth for hand-held or probe holder use. Variable spacing from 0.2 to
3.3 mm (8 to 130 mills).
InfiniiMax II: The World’s Best High-Speed Probing System Just Got Better
InfiniiMax offers you the highest performance
available for measuring differential and single-ended signals, with flexible connectivity solutions for today’s high-density ICs and circuit boards.
InfiniiMax probes have fully characterized performance for all of their various probe heads.
This includes:
• Swept frequency response plot
• Common mode rejection vs. frequency plot
• Impedance vs. frequency plot
• Time-domain probe loading plot
• Time-domain probe tracking plot
One-year standard warranty on active probes and a variety of Agilent support options to choose from.
Controlled impedance transmission lines in every probe head deliver full performance versus the performance limitations produced by traditional wire accessories.
Probe interface software allows you to save the calibration information for up to 10 different probe heads per channel and will automatically retrieve calibration data for a probe amplifier as it is attached to the scope.
High-input impedance active probes minimize loading, support differential measurements and DC offset, and can compensate for cable loss.
Probe calibration software delivers the most accurate probe measurements, linear phase response and allows various probe combinations to be deskewed to the same reference time.
InfiniiMax II probe heads
14
High-Frequency Active Differential/Single-Ended Probe System
Agilent 1168A/69A InfiniiMax II High-Performance Active Probe System
Specifications
Operating Characteristics
Bandwidth* 1169A: > 12 GHz (13 GHz typical) 1168A: > 10 GHz
Rise and fall time Probe only, 1169A: Probe only, 1168A:
• Probe only 28 ps (20 - 80%), 40 ps (10 - 90%) 34 ps (20 - 80%), 48 ps (10 - 90%)
• When phase compensated by 1169A with DSO81204A: 1168A with DSO81004A: 80000 Series oscilloscope 25 ps (20 - 80%), 36 ps (10 - 90%) 30 ps (20 - 80%), 42 ps (10 - 90%)
1169A with DSO81304A:
23 ps (20 - 80%), 33 ps (10 - 90%)
System bandwidth (–3 dB) 1169A with DSO81304A: 13 GHz (typical) 1168A with DSO81004A: 10 GHz
1169A with DSO81204A: 12 GHz
Input capacitance
1
Cm = 0.09 pF Cm is between tips Cg = 0.26 pF Cg is to ground for each tip Cdiff = 0.21 pF Differential mode capacitance = Cm + Cg/2 Cse = 0.35 pF Single-ended mode capacitance = Cm + Cg
Input resistance* Differential mode resistance = 50 k±2%
Single-ended mode resistance = 25 k±2%
Input dynamic range 3.3 V peak to peak
Input common mode range 6.75 V peak to peak dc to 100 Hz; 1.25 V peak to peak > 100 Hz
Maximum signal slew rate 25 V/ns when probing a single-ended signal
40 V/ns when probing a differential signal
DC attenuation 3.45:1
Zero offset error referred to input ± 1.5 mV
Offset range ± 16.0 V when probing single-ended
Offset accuracy < 3% of setting
Noise referred to input 2.5 mV rms, probe only
Propagation delay ~6 ns (this delay can be deskewed relative to other signals)
Maximum input voltage 30 V peak, CAT I
ESD tolerance > 8 kV from 100 pF, 300 HBM
* Denotes warranted specifications, all others are typical. 1 Measured using the probe amplifier and N5381A solder-in differential probe head.
15
High-Frequency Active Differential/Single-Ended Probe System
Agilent 1168A/69A InfiniiMax II High-Performance Active Probe System
Ordering Information
InfiniiMax II Probe Amplifiers Description
1169A 12 GHz InfiniiMax probe amp – order one or more probe heads.
1168A 10 GHz InfiniiMax probe amp – order one or more probe heads.
InfiniiMax II Probe Heads Recommended for use with InfiniiMax II probe amplifiers
N5380A InfiniiMax II 12 GHz differential SMA adapter. Includes semi-rigid coax to change
span between SMA connectors.
N5381A InfiniiMax II 12 GHz differential solder-in probe head and accessories. Includes
wire for replacement leads. Order 01169-21306 for 0.005 inch or 01169-81301 for
0.007 inch replacement nickel wire.
N5382A InfiniiMax II 12 GHz differential browser. Includes wire for replacement leads.
Order 01169-21304 for 0.005 inch replacement steel wire.
InfiniiMax I probe heads* Can be used with InfiniiMax II probe amplifiers with limitations
E2675A InfiniiMax differential browser probe head and accessories. Includes 20 replaceable
tips and ergonomic handle. Order E2658A for replacement accessories.
E2676A InfiniiMax single-ended browser probe head and accessories. Includes 2 ground collar
assemblies, 10 replaceable tips, a ground lead socket and ergonomic browser handle. Order E2663A for replacement accessories.
E2677A InfiniiMax differential solder-in probe head and accessories. Includes 20 full bandwidth
and 10 medium bandwidth damping resistors. Order E2670A for replacement accessories.
E2678A InfiniiMax single-ended/differential socketed probe head and accessories. Includes 48 full
bandwidth damping resistors, 6 damped wire accessories, 4 square pin sockets and socket heatshrink. Order E2671A for replacement accessories.
E2679A InfiniiMax single-ended solder-in probe head and accessories. Includes 16 full bandwidth
and 8 medium bandwidth damping resistors and 24 zero ohm ground resistors. Order E2672A for replacement accessories.
E2695A Differential SMA probe head. Includes semi-rigid coax to change span between
SMA connectors.
* (See Benefits section of publication number 5989-1487EN/ENUS for specifications and limitations when used with InfiniiMax II Series probe amplifiers.)
Adapters Description
N1022A Adapts 113x/115x active probes to 86100 Infiniium DCA.
E2696A General purpose probing solution for use with instruments such as spectrum analyzers and
network analyzers. Includes N1022A probe adapter, N1022-60014 connection adapter, and 01143-61602 probe power extension cable. Items that must be purchased separately for a complete probing solution are an InfiniiMax probe amplifier and desired probe heads, and 1143A probe power supply.
16
Figure 3.8. Agilent 1155A for fine-pitch ICs, SMDs, and dense circuit boards.
High-Frequency Active Single-Ended Voltage Probes
Agilent 1155A Active Single-Ended Voltage
• Easy connection to fine-pitch ICs, SMDs, and dense circuit boards
• Lightweight (< 1 gram), low mass probe tip
• Two channels, 750 MHz bandwidth
1155A
1160A
1M
100k
10k
1k
100
10k
100k 1M
10M
100M 1G
Frequency (Hz)
Low Cost, Great Performance
Talk about big performance in a small package! The two-channel, low-mass 1155A combines a probe tip that weighs less than 1 gram with the superior per­formance of an active probe. It’s a powerful combination, ideal for connecting to and testing fine­pitch ICs, surface mount devices, and dense circuit boards.
The 1155A probe joins high bandwidth (750 MHz), low input capacitance (2 pF), and high resistance (1 M). These features are well suited for measuring fast transition times on low voltage signals that cannot tolerate the circuit loading of passive probes.
A Wedge Probe Adapter, included with the probe, allows for hands­free probing of 0.5 mm ICs. The Wedge provides accurate, me­chanically non-invasive electrical contact to the IC legs with little chance of shorting. It’s easy to insert and it stays put. For more information on the Wedge, see “Probing Accessories.” Leads are available for connecting to a wide variety of test points. See “Ordering Information” for a complete list.
These probes are compatible with the AutoProbe interface, which completely configures the oscillo­scope for use with the probe. Power for the active probe is sup­plied by the oscilloscope. A snap­on BNC connector simplifies attaching the probe to the scope.
Figure 3.6. Agilent Wedge Probe Adapter for reliable, hands-free probing of 0.5 mm ICs.
Figure 3.7. Comparison of input impedance versus frequency, showing the higher input impedance of the 1155A probe.
Input Impedance ()
17
Specifications
Operating Characteristics
Bandwidth (–3 dB) dc to 750 MHz
System bandwidth 500 MHz with 600 MHz 54830B/D, 31B/D scopes
670 MHz with 1 GHz 54832B/D, 33B/D scopes
Rise time* 470 ps
Attenuation factor* 10:1 ± 3%
dc input resistance* 1 M±2%
Input capacitance 2 pF (typical)
Flatness Less than ±10% for first 6 ns,
±4% from 6 ns to 20 µs, ±1.5% thereafter
Input dynamic range 0 to 6.0 V
Maximum input voltage ±40 V (dc + peak ac), CAT I
Environmental Characteristics
Temperature (operating) 0° C to +55° C
Humidity (operating) Up to 95% relative humidity at 40° C
* Denotes specified parameters. All others are characteristics.
Ordering Information
Probe and Accessories
Part # Description Quantity
1155A Low mass, 2-channel active probe 1
IC clips: See “Probing Accessories”
Wedge Probe Adapters: See “Probing Accessories”
Replacement Parts
Part # Description Quantity
01145-61602 Probe tip and cable 1
16517-82104 SMT leads 4 red,
4 black
16517-82105 Spacing ground adapter 20
16517-82106 Flexible leads 20
16517-82107 Pin probe kit 4
5090-4388 SMT clip 20
Accessories Supplied
Four probing pins
Five SMT clips
Two flexible leads
Two spacing ground adapters
Two red, two black SMT leads
One BNC-to-probe tip adapter (E9638A)
Two 0.5 mm Wedge Probe Adapters
Includes user’s guide and one-year warranty.
High-Frequency Active Single-Ended Voltage Probes
Agilent 1155A Active Single-Ended Voltage
18
High-Frequency Active Single-Ended Voltage Probes
Agilent 1156A/57A/58A High-Bandwidth, Active Single-Ended Voltage
• Ideal for a range of hi-speed applications
• 88 ps rise time (on 4 GHz model)
• 100 kΩ, 0.8 pF, non-resonant input impedance
• 5 V peak-to-peak dynamic range
• ± 15 V offset
• Accessories designed for minimal device loading and optimal response
• Small size for easier probing
As the speeds in your design increase, you may notice more overshoot, ringing, and other per­turbations when connecting an oscilloscope probe. Probes form a resonant circuit where they con­nect to the device. If this reso­nance is within the bandwidth of the oscilloscope probe you are using, it will be difficult to deter­mine if the measured perturba­tions are due to your circuit or the probe.
These probes are compatible with the AutoProbe interface, which completely configures the oscillo­scope for use with the probe. Power for the active probe is sup­plied by the oscilloscope.
Faithful Reproduction of Your Signal
Now you can accurately measure your hi-speed signals without introducing errors from a probe that has a resonant input imped­ance or non-flat frequency response. With the 1156A/57A/58A probes, a damping resistor is placed as close as possible to the point being probed, which keeps the input impedance from res­onating low, and it also allows a flat frequency response across the entire bandwidth of the probe. Finally, there is a high-bandwidth active probe where the waveform
onscreen matches the waveform at the probe tip. The 1158A offers a flat response for the entire bandwidth of a 4 GHz probe!
Small Size
Have you experienced problems with large, clunky probes? If so, you probably found your probe awkward to hold and had diffi­culty connecting to your signals. With the small size of the 1156A/57A/58A, you can handle the probe expertly and gain access to tight spaces. Plus, the low mass makes the probe more durable. Agilent makes your job easier–giving you performance that is easy to use.
Superior Accessories
Your device under test (DUT) determines the type of probing accessories you need. Of course, there are electrical trade-offs depending on the type of connec­tion you use. Longer connections from your DUT produce lower performance probing systems.
Figure 3.9. Agilent 1156A/57A/58A active probe for hi-speed signals.
Figure 3.10. Probe with resistive signal pin and ground blade.
Agilent offers a variety of acces­sories optimized to give you the most accurate reproduction of your signal. In addition, the per­formance of each accessory is characterized for you. Now you can make informed decisions and get the best measurement for your environment. Superior per­formance combined with the knowledge to use it–that’s how Agilent helps you do your job better.
19
Specifications
Operating Characteristics
Bandwidth (–3 dB) 1156A: > 1.5 GHz; 1157A: > 2.5 GHz; 1158A: > 4 GHz
System bandwidth (–3 dB) 1156A with 54832B/D or 54835A scope: 1 GHz;
1157A with 54852A scope: 2 GHz; 1157A with 54853A scope: 2.5 GHz; 1158A with 54854A scope: 4 GHz
Rise and fall time (10% to 90%) 1156A: < 233 ps; 1157A: < 140 ps; 1158A: < 88 ps calculated from tr= 0.35/bandwidth
Input capacitance 0.8 pF
Input resistance [1] 100 k1%
Flatness, swept response 0.2 dB: 100 kHz to 100 MHz;
0.4 dB: 100 MHz to 2.5 GHz;
2.0 dB: 2.5 GHz to 4.0 GHz
Flatness, step response 15% overshoot: 35 ps input edge;
10% overshoot: 75 ps input edge; 2%: 1 ns after edge
Dynamic range [2] > 5.0 V peak-to-peak
dc attenuation [1] 10:1 ± 3% before calibration [4];
10:1 ± 1% after calibration [4]
Zero offset error < 30 mV before calibration [4]; referred to input [1] < 5 mV after calibration [4]
Offset range [1] ±15.0 V
Offset accuracy [1] < 3% of setting before calibration [4];
1% of setting after calibration [4]
Noise referred to input 3.0 mVrms
Propagation delay 5.5 ns
Maximum input voltage 40 V peak, CAT I [3]
ESD tolerance > 5 kV from 100 pF, 300 HBM
Temperature drift Offset: < 1.0 mV/°C; Attenuation (Gain): 0.1 %/°C
[1] Denotes warranted specifications, all others are typical. [2] For waveforms with edges > 3 ns, the dynamic range is > 12.0 V peak-to-peak. [3] Installation category (over voltage category) I: Signal level, special equipment, or parts of equipment, telecommuni-
cation, electronic, etc., with smaller transient overvoltage than installation category (overvoltage category) II.
[4] Probe calibrated to scope channel (under Probes Setup menu).
Environmental Characteristics
Temperature Operating: 0° C to +55° C;
Non-operating: –40° C to +70° C
Humidity Operating: Up to 95% relative humidity
(non-condensing) at +40° C; Non-operating: Up to 90% relative humidity at +65° C
Figure 3.11. Notice how closely output matches input. Graph shows V
in
and V
out
when driven from a 25 source.
Figure 3.12. The flat response means the waveform on the scope screen will match the waveform at the probe tip—across an entire 4 GHz bandwidth. Graph shows response (V
out/Vin
).
Figure 3.13. Agilent E2654A EZ-Probe Positioner option provides stable and accurate X,Y, Z probe positioning (see “EZ-Probe Positioner” in the “Probing Accessories” section of this document).
High-Frequency Active Single-Ended Voltage Probes
Agilent 1156A/57A/58A High-Bandwidth, Active Single-Ended Voltage
20
Twelve 130 resistive signal pins (orange)*
Accessories Supplied
Two solderable-tip 5 cm resistive signal leads*
Two socket-end 5 cm resistive signal leads*
Two socket-end 10 cm resistive signal leads*
Four micro clips
Twelve ground blade assemblies*
Twelve solderable SMT ground pins*
Twelve solderable through-hole ground pins*
Twelve offset ground pins
Two solderable-tip 5 cm ground leads
Two socket-end 5 cm ground leads
Two socket-end 5 cm 90° pin ground leads
Ordering Information
Part # Description Quantity
1156A 1.5 GHz active probe* 1
1157A 2.5 GHz active probe* 1
1158A 4 GHz active probe* 1
* The Infiniium 54800A Series scope requires version A.04.30 or greater of the application software to work with the
1156A/7A/8A probes. An LS-120 drive is required for this upgrade.
Accessories
Part # Description Quantity
E2637A Precision measurement kit (includes 2 solderable 1
ground sockets with 2 green resistive signal pins)
E2638A Solderable-tip 5 cm resistive signal leads (10) 1
with ground leads (3)
E2639A Micro clips 4
E2640A Resistive signal pins, (orange) 8
E2641A Ground blade assembly 8
E2654A EZ-Probe®Positioner 1
High-Frequency Active Single-Ended Voltage Probes
Agilent 1156A/57A/58A High-Bandwidth, Active Single-Ended Voltage
Includes user’s guide and one-year warranty.
These accessories are properly damped to give you a flat transmitted response and non-resonant input impedance. Use these supplied accessories to get the best performance from your probe.
21
High-Frequency Passive Voltage Probe
Agilent 54006A 6 GHz Resistor Divider Probe
The Agilent 54006A allows you to probe signals up to 6 GHz using replaceable tips that provide either 10:1 division ratio with 500 input resistance, or a 20:1 division ratio with 1 k input resistance. This 6 GHz probe gives access to circuit nodes that are not 50 or do not have 50 connectors allowing
Figure 3.14. Agilent 54006A for probing high frequency, up to 100 impedance signals.
you to see signals at specific points, such as the input to a gate. Agilent 54006A’s input capacitive loading is approxi­mately 0.25 pF, allowing you to get very accurate timing measure­ments for a wide bandwidths of signals.
The 54006A probe is a good, low-cost alternative for high frequency probing where the higher resistive loading is not an issue and the other features of the InfiniiMax probing system are not needed (such as differen­tial inputs and multiple connec­tivity options).
Specifications
Operating Characteristics
Bandwidth (–3 dB) 6 GHz
Attenuation ratio 10:1, 20:1
Input resistance 500 , 1 k
Input capacitance 0.25 pF
Max dc volts 20 V
Length in meters (feet) 0.9 m (3 ft)
Ordering Information
Part # Description Quantity
54006A* 6 GHz Resistor Divider Probe 1
Includes: One 10:1 500 Ω probe body, six 450 Ω resistors, One 20:1, 1 kprobe body, six 950 resistors, One 36 in, 50 Ω coaxial cable, SMA (m-m) One blocking cap, 10 GHz-26 GHz APC – 3,5 (m-f)
* Requires the 54855-67604 SMA to precision-BNC adapter to connect to BNC scope input.
• Useful in probing high-frequency signals with low source impedance
• Supplied with 10:1, 500 Ω and 20:1, 1 kΩ resistor dividers
• Low capacitive loading to extremely high frequencies
22
Differential Voltage Probes Overview
Differential probes are active probes with two inputs, one posi­tive and one negative, as well as a separate ground lead. They are used to look at signals that are referenced to each other instead of earth ground and to look at small signals in the presence of large dc offsets or other common mode signals such as noise. The differential amplifier in the probe rejects signals that are common
Figure 4.1. Agilent 1153A for probing low-bandwidth differential signals.
Model Probe Type Applications and Use Page
1153A Active Differential Measure low-bandwidth differential signals 23
1130A/31A/32A/34A Active Diff/SE Measure both differential and single-ended signals up to 7 GHz 10
1168A/69A Active Diff/SE Measure both differential and single-ended signals up to 13 GHz 13
Differential Probe Advantages Limitations
View small signals in the presence of dc or More expensive than general-purpose probes other common mode signals Less dynamic range than using two passive probes
1153A probes both low- and high-voltage 200 MHz bandwidth differential signals with low thermal drift
1168A/69A and 1130A/31A/32A/34A probes both Lower dynamic range and maximum input voltage single-ended and differential signals up to 13 GHz bandwidth
to the two inputs, removing the dc or common mode signals and leaving the signal of interest. The common mode rejection ratio (CMRR) characterizes how effec­tively the probe rejects signals common to each input. The CMRR for differential signals is much higher than using two passive probes and subtracting the sig­nals with a math function.
Differential probes are used with RF communication ICs, semicon­ductor characterization (RAM­BUS, Double Data Rate, DRAM, AGP), battery-powered communi­cation and computing equipment (cellular phone, laptop computer, etc.), disk drive read-write chan­nel signals, power supply design and verification, motor speed controls, electronic high-power converters, and other applica­tions where signals are “floating” above ground.
Figure 4.2. Agilent 1130A InfiniiMax probe amplifier and E2675 differential browser probe head, ordered separately.
23
Reliable Probing of Low-Bandwidth Signals
The Agilent 1153A is a 1:1 FET differential probe with 200 MHz bandwidth and 3000:1 CMRR (Common Mode Rejection Ratio) at 1 MHz. Two attenuators, 10:1 and 100:1, expand the dynamic range of the inputs up to + 30 V. The probe has a high input resist­ance of 1 Mand low input capacitance of 7 pF to minimize circuit loading.
Input coupling modes include dc, dc with variable offset, and low­frequency (LF) reject. The probe also comes with an ac coupling adapter for those cases where
Active Differential Voltage Probes
Agilent 1153A Low-Bandwidth Active Differential Voltage
• View of low-bandwidth differential signals in the presence of much larger common-mode signals
• dc to 200 MHz bandwidth
• Input from ±300 mV (dc + peak ac) to ±30 V with attenuation
• 3000:1 CMRR at 1 MHz
• Input coupling: dc offset, low­frequency reject, ac coupling
• Low dc thermal drift
Figure 4.3. Agilent 1153A 1:1 FET differential probe with 200 MHz bandwidth.
the input dc voltage level pre­vents the use of LF reject. LF reject, like ac coupling, blocks the dc component in a signal without degrading low frequency CMRR, which occurs when you use blocking capacitors to accom­plish ac coupling. The probe’s dual-path amplifier design pro­vides superior dc stability by reducing the drift to less than 50 µV dc per degree Celsius.
The 1153A is designed for relia­bility through use of over-voltage protection circuitry, which decreases the probe’s susceptibil-
ity to damage from electrostatic discharge and other accidental exposure to excessive voltage. Special attention is paid to isolat­ing critical parts from shock.
The probe is compatible with the AutoProbe interface, which com­pletely configures the Infiniium scope for the probe. The probe interface recognizes the probe and automatically sets up the proper power, coupling modes, 50 impedance, and offset range. A snap-on BNC connector simplifies connecting the probe to the scope.
24
Specifications
Operating Characteristics
Bandwidth (–3 dB) dc to 200 MHz [1]
Rise time 1.75 ns calculated from tr= (0.35/bandwidth)
dc gain accuracy* 2% (with 50 ± 0.1 load)
dc attenuator accuracy 2%
Linear differential input range ±0.3 V (1:1); ±3.0 V (10:1); ±30 V (100:1)
dc offset ±18 V (1:1); ±180 V (10:1); ±500 V (100:1)
Common mode operating range dc: ±18 V (1:1); ±180 V (10:1); ±500 V (100:1)
dc to 30 Hz: linearly decreased to 30 Hz value 30 Hz to 200 MHz: ±0.5 V (1:1); ±5 V (10:1); ±50 V (100:1) (voltages are peak voltage)
Maximum allowable input voltage* 200 V (dc + peak ac) CAT I, 1:1;
500 V (dc + peak ac) CAT I, with attenuators common or differential modes
Input coupling dc, LF reject, and ac.
ac coupling is provided via an adapter that attaches to the probe. LF reject response (–3 dB) is selectable independent of attenuators at 1.7 Hz (LFR1) and
0.14 Hz (LFR2).
CMRR* See graph on next page.
ac coupling 15 Hz (1:1); 1.5 Hz (10:1).
Low-Frequency Response (–3 dB) with ac coupling adapter and input 1.5 Hz (100:1) coupling set to dc.
dc thermal drift 50 µV dc/°C
Input RC 1:1 R: 1 MC: 7 pF
10:1 R: 9 MC: 3.5 pF 100:1 R: 10 MΩ C: 2.0 pF
Output termination impedance 50
Safety Meets IEC 1010-2-31
Environmental Characteristics
Temperature Operating: 0° C to +55° C;
Non-operating: –40° C to +70° C
Humidity Operating: 95% relative humidity at 40° C;
Non-operating: 90% relative humidity at +65° C
Altitude Operating: Up to 4,600 m (15,000 ft);
Non-operating: Up to 15,300 m (50,000 ft)
* Denotes specified parameters. All others are characteristics. [1] For maximum signal fidelity, above 100 MHz, limit probe output into 50 to 300 mV peak-to-peak.
Active Differential Voltage Probes
Agilent 1153A Low-Bandwidth Active Differential Voltage
25
Ordering Information
Probe and Accessories
Part # Description Quantity
1153A 200 MHz differential probe 1
5959-9335 Long (5.5 inch) test lead 5
IC clips: See “Probing Accessories”
Probe Parts Supplied
One
differential
probe
One 10:1 attenuator adapter
One 100:1 attenuator adapter
One ac coupling adapter
One two-inch extension lead package (5)
Twenty mini clips
One five-inch ground lead
One shielded signal lead
Includes one test board, flat-blade alignment tool, strip of 20 circuit connection posts, user’s guide, and one-year warranty
Active Differential Voltage Probes
Agilent 1153A Low-Bandwidth Active Differential Voltage
Figure 4.4. dc component in a signal blocked using low-frequency reject without degrading low-frequency CMRR.
10000:1
DC/Lf Reject Typical:
DC/Lf Reject Minimum:
10:1 attenuator
100:1 attenuator
AC Coupler
5000:1
2000:1
1000:1
100:1
10:1
3:1
1:1
10 Hz 100 Hz 1 kHz 10 kHz 100 kHz 1 MHz 10 MHz 100 MHz
26
Current Probes Overview
Current probes sense the current flowing through a conductor and convert it to a voltage that can be viewed and measured on an oscil­loscope. There are two types of current probes for oscilloscopes, ac current probes (usually pas­sive probes) and ac/dc current probes (usually active probes). Both types use the same principle of transformer action for sensing ac current in a conductor. The alternating current flowing through a conductor causes a flux field to build and collapse accord­ing to the amplitude and direc­tion of current flow. The ac cur­rent probe head is actually a coil— when placed in this field the changing flux field induces a volt­age across the coil. The ac/dc cur­rent probes also contain a Hall Effect device to sense dc and low frequency ac. Because dc doesn’t cause a changing flux field it can­not be sensed by transformer action. Also, at frequencies very close to dc, the flux field may not change fast enough for measura­ble transformer action.
Figure 5.2. Agilent 1147A general­purpose ac/dc current probe.
Model Probe Type Applications and Use Page
1146A ac/dc Current Measure dc and ac current simultaneously. Useful for 27
lines type power measurements.
1147A ac/dc Current Measure dc and ac current simultaneously. Useful for 29
pwm/switching power measurements.
Current Probe Advantages Limitations
1146A low-cost model measures ac and dc current 100 kHz bandwidth to 100 Arms without breaking into the circuit
1147A measures ac and dc current to 50 MHz 15 A rated current without breaking into the circuit
Figure 5.1. Agilent 1146A low-cost ac/dc current probe.
27
Within Budget, Without Compromise
The low-cost 1146A probe expands oscilloscope applications in industrial, automotive and power environments and is ideal for analysis and measurement of distorted current waveforms and harmonics. Accurate display and measurement of currents from 100 mA to 100 Arms, dc to 100 kHz, are made by using Hall Effect technology, eliminating the need for an electrical connection to the circuit.
Low phase shift makes this probe ideal for power quality measure­ments, while the high sensitivity makes it a great tool for measur­ing low-voltage signals. For true root mean square (RMS) measure­ments, the 1146A lets you meas-
Current Probes
Agilent 1146A ac/dc Current
• Low-cost solution
• ac/dc currents measured simultaneously
• Accurate measurements of currents: 100 mA to 100 Arms, dc to 100 kHz
• Load impedance > 1 M/100 pF
Figure 5.3. Agilent 1146A 100 mA to 100 Arms, dc to 100 kHz probe.
ure the dc and ac output signals proportional to the total current. A battery level indicator and overload indicator help insure proper readings.
A narrow, elongated clamping mechanism lets you easily probe in crowded cable bundles and cir­cuit boards. The probe connects directly to an oscilloscope through a 2 meter coaxial cable with an insulated BNC.
Probe power is provided by the battery, so there is no need for an external amplifier or power supply.
28
Specifications
Operating Characteristics
Current range* 100 mV/A: 100 mA to 10 A peak;
10 mV/A: 1 to 100 A peak
Output signal 1000 mV peak max
ac current accuracy* Range Accuracy (after calibration and for one year) 100 mVA (50 mA to 10 A peak) 3% of reading ± 50 mA (zero probe before making 10 mVA (500 mA to 40 A peak) 4% of reading ± 50 mA measurement) 10 mVA (40 A to 100 A peak) 15% max at 100 A
Phase shift [1] < 1° from dc to 65 Hz on 10 mV/A
< 1.5° from dc to 65 Hz on 100 mV/A
Frequency range* dc to 100 kHz (–3 dB with current derating)
Noise Range 10 mV/A: 480 µV;
Range 100 mV/A: 3 mV
Slew rate Range 10 mV/A: 20 mV/µs;
Range 100 mV/A: 0.3 V/µs
Load impedance > 1 M/100 pF
Insertion impedance (50/60 Hz) 0.01
Rise or fall time Range 100 mV/A: 3 µs; Range 10 mV/A: 4 µs
Working voltage 600 Vrms maximum
Common mode voltage 600 Vrms maximum
Influence of adjacent conductor < 0.2 mA/A ac
Influence of conductor position 0.5% of reading at 1 kHz in jaw
Battery 9 V alkaline (NEDA 1604A, IEC 6LR61)
Low battery Green LED when 6.5 V
Overload indication Red LED indicates input greater than selected range
Typical consumption 8.6 mA
Battery life 55 hours typical
* Characteristics marked with asterisks are specified performance. Others are typical characteristics. [1] Reference conditions 23° C ± 5° C, 20 to 75% relative humidity, dc to 1 kHz, probe zeroed, one minute warmup,
batteries at 9 V + 0.1 V, external magnetic field < 40 A/m, no dc component, no external current carrying conductor, 1 MΩ/100 pF load, conductor centered in jaw.
Ordering Information
Part # Description Quantity
1146A ac/dc oscilloscope current probe 1
Current Probes
Agilent 1146A ac/dc Current
29
Accurate Current Measurements Without Breaking the Circuit
The 1147A is a wide bandwidth, dc to 50 MHz, current probe. The probe offers flat frequency response across the entire dc to 50 MHz bandwidth, low noise (< 2.5 mArms) and low-circuit insertion loss, making it ideal for general-purpose, high-frequency current probing in lab and bench environments. This probe is the best choice for measuring steady state or transient current of motor drives, switching power supplies, inverters, controllers, disk drives, LCD displays, and current amplifiers driving induc­tive loads.
The probe’s hybrid technology includes a Hall Effect device to sense the dc current and a cur­rent transformer to sense the ac current, making an electrical con­nection to the circuit unneces­sary. Using split core construc­tion, the probe easily clips on and off of a conductor up to 5 mm in diameter.
Current Probes
Agilent 1147A High Bandwidth ac/dc Current
• General purpose, high-frequency current probing
• ac, dc currents measured simultaneously
• dc to 50 MHz bandwidth
• 15 A continuous, 50 A peak dc and ac pulse current
Figure 5.4. Agilent 1147A 15 A rated current, 50 A peak current.
A Degauss function allows the removal of any residual magnet­ism that has built up in the mag­netic core due to power on/off switching or excessive input. In addition, voltage offset or temper­ature drift on the probe can be easily corrected by using the zero adjustment dial.
The 1147A is compatible with the AutoProbe interface, which com­pletely configures the oscillo­scope for the probe. Probe power is provided by the scope, so there is no need for an external amplifi­er or power supply. A snap-on BNC connector simplifies con­necting the probe to the scope.
Figure 5.5. Frequency response chart showing the accuracy of the 1147A for probing wide bandwidth currents.
-10
-20
-30
-40
-50
Amplitude (0db =IV)
-60
1 100 10k 1M 100M
Frequency (Hz)
30
Operating Characteristics
Bandwidth (–3 dB) dc to 50 MHz
Rise time
1
7 ns
Accuracy* ±1% of reading ±1 mV
Maximum continuous current 15 A (acrms + dc)
Refer to derating curves above 5 kHz.
Maximum peak current 50 A for pulse width 10 µs
Probe sensitivity 0.1 V/A
Noise 2.5 mArms with 20 MHz bandwidth limiting
Effect of external magnetic fields Equivalent to 20 mA (for a 400 A/m magnetic field
dc to 60 Hz)
Temperature coefficient ±2% or less (0° C to 40° C)
Maximum measurable 5 mm (0.2 inch) cable diameter
Sensor cable length 1.5 m (59 inch)
1 Rise time is calculated as 0.35/bandwidth. * Denotes warranted specification for the N2774A probe. All others are typical. Valid for 23º C ± 3º C (73º F ± 5º F),
at least 30 minutes after power on. Requires 1 Mtermination.
Ordering Information
Part # Description Quantity
1147A 50 MHz current probe 1
N2774A 50 MHz current probe. Same as 1147A, only 1
with standard BNC scope connection. Use with 54852A/53A/54A/55A and DSO80000 models along with E2697A high-impedance adapter.
N2775A Probe power supply for N2774A 1
Current Probes
Agilent 1147A High Bandwidth ac/dc Current
31
High-Voltage Passive Probes Overview
High-voltage probes are used for voltages higher than can be han­dled safely with general-purpose 10:1 passive probes. For example, the maximum voltage for the 116XA general-purpose passive probes included with most Infiniium models is 300 volts (dc + peak ac). Agilent’s high­voltage probes have maximum ratings as high as 15,000 volts.
Figure 6.1. Agilent 10076A, 100:1, high-voltage probe.
Figure 6.2. Agilent N2771A, 1000:1, high-voltage probe.
Model Probe Type Applications and Use Page
10076A High Voltage Measure voltages above 300 V 32
N2771A High Voltage Measure voltages above 300 V 33
High-Voltage Probe Advantages Limitations
Safely measure voltages to 15 kV Limited bandwidth
10076A features a small size, low cost Measure to 4 kV
N2771A provides measurements to 15 kV Large size
32
The 10076A provides the features you need to capture fast, high-voltage signals. Its compact design makes it easy to probe today’s small, power electronics components. Rugged construction enables it to withstand rough handling without breaking.
High-Voltage Passive Probes
Agilent 10076A (100:1)
• Measure voltages up to 4 kV peak
• 250 MHz bandwidth
Figure 6.3. Compact design and long cable of the Agilent 10076A for probing small, power electronics components.
Figure 6.4. Derating curve showing band­width characteristics of the 10076A probe.
Specifications
Operating Characteristics
Bandwidth (–3 dB) 250 MHz
Rise time (Calculated) < 1.4 ns
Attenuation ratio 100:1
Input resistance 66.7 M(when terminated into 1 M)
Input capacitance Approximately 3 pF
Maximum input 4000 Vpk
Compensation range 6 - 20 pF
Probe readout Yes
Cable length 1.8 m
Ordering Information
Probe and Accessories
Part # Description Quantity
10076A High-voltage probe includes one retractable 1
hook tip, one ground bayonet, one IC probing tip, one alligator ground lead, and a compensation screwdriver.
4000 V
1000 V
100 V
Volts dc + peak ac
10 V
1 MHz
100 kHz
Frequency
10 MHz
100 MHz
250 MHz
33
Specifications
Operating Characteristics
Bandwidth (–3 dB) 50 MHz
Rise time (calculated) < 7 ns
Attenuation ratio 1000:1
Input resistance 100 M(when terminated into 1 M)
Input capacitance 1 pF
Compensation range 7 - 25 pF
Maximum voltage 15 kV dc, 10 kVrms ac, 30 kV dc + peak ac
Dimensions 2 cm (maximum width of probe stem after
handle) x 33 cm;
7.5 cm (maximum probe width at probe handle) x 33 cm
Ordering Information
Probe and Accessories
Part # Description Quantity
N2771A High-voltage probe includes one alligator ground 1
lead, one sharp probe tip, and one hook probe tip.
For safe and accurate insight into very high-voltage designs check out our model N2771A probe. Typical applications include PMTs, motor drives, high-voltage
High-Voltage Passive Probes
Agilent N2771A (1000:1)
• Measure voltages up to 30 kV dc + peak ac, 10 kVrms
• 50 MHz bandwidth
• Superior protection and safety
Figure 6.5. Agilent N2771A for measuring voltages up to 30 kV dc + peak ac, 10 kVrms.
switches, magnetrons, and mod­ern projection systems. The probe’s large size and rugged construction provide superior protection. The ground lead feeds through the body of the probe and protrudes behind the safety barrier, keeping the ground connection away from the high voltage.
Figure 6.6. Derating curve showing band­width characteristics of the N2771A probe.
100000 V
10000 V
1000 V
100 V
10 V
Volts dc + peak ac
1 V
1 MHz
16.614 k
100 kHz
Frequency
500 kHz
10 MHz
50 MHz
34
Mixed-Signal Oscilloscope Logic Probe Kit
• Same cable used for high-performance Agilent logic analyzers
• Flying leads offer flexibility and convenience
• IC clips with twin hooks are designed for fine surface mounted components
MSO probes offer great value and performance
The mixed-signal oscilloscope logic probe for the Agilent 54830D/31D/32D/33D mixed-signal oscilloscopes is the same one used with Agilent’s high-performance logic analyzers. This means we can offer the best performance, great value, and access to the industry’s broadest range of logic probing accessories.
The 54826-68701 16-channel logic probe kit with flying leads makes it possible to connect at several different places on your device under test. The entire probe lead set can be grounded through the
Ordering Information
Part # Description Quantity
54826-68701 Logic Probe Kit for 54830 Series MSO 1
Kit parts supplied
16-channel probe lead set . . . . . . . . . . x1
Ground leads . . . . . . . . . . . . . . . . . . . . . . x5
SMT IC clips . . . . . . . . . . . . . . . . . . . . . . x20
External digital cable . . . . . . . . . . . . . . . x1
Sixteen-channel probe lead set (part number 54838-61608)
SMT IC clip (part number 5090-4833)
Ground leads contain 5 short ground leads (part number 5959-9334)
External digital cable (part number 54826-61605)
common ground. This requires only one connection but may cause poor signal fidelity in systems with fast transition times. The recommended method is to individually ground each logic probe lead. This yields
optimal signal fidelity and is required for signals with fast transition times (<4-5 ns). This probe kit is included with the 54830D, 54831D, 54832D, and 54833D Infiniium mixed-signal oscilloscopes.
35
Agilent E5396A Half-Size Soft Touch Connectorless Logic Probe
• 17 channels, single-ended clock and data
• < 0.7 pF equivalent load capacitance
• Capable of data rates > 2.5 Gb/s (maximum rate depends on analyzer used)
• 500 mV p-p minimum signal amplitude
The E5396A half-size soft touch connectorless probe provides convenient, reliable probing for your target system without the need for a connector. The probe has the industry’s smallest foot­print for use in designs that are tight on space. Because this probe uses Agilent’s soft touch connec­torless technology, there is no need for special plating or prepa­ration of the probe site. This robust and reliable technology offers a long life of trouble-free probing. This probe can be used with any Agilent logic analyzer with a 40-pin cable connector or any Agilent Infiniium 54830 Series mixed-signal oscilloscope, including models 54830D, 54831D, 54832D, and 54833D.
Ordering Information
Part # Description Quantity
E5396A Half-size soft touch connectorless probe 1
Figure 8.1. E5396A.
36
Probing Accessories
Wedge Adapters
Agilent Wedge Probe Adapters
• Secure connection to 0.5 mm and
0.65 mm TQFP and PQFP devices
• Won’t fall off, short against adjacent legs, or degrade signal quality
• Can be inserted while the board is active
• 3, 8, and 16 signal versions
The Agilent Wedge Probe Adapter provides a highly reliable, mechanically non-invasive con­nection to fine-pitch TQFP and PQFP surface mount ICs. Compressible dual conductors inserted in the space between adjacent IC pins conform to the size and shape of each pin to ensure tight contact. The redun­dant physical connection created by two contact points on each pin of the IC and the short electrical length of the probe adapter dra­matically increase the reliability of the electrical connection. Because the Wedge does not latch directly onto the IC and does not require expansion beforehand (unlike a clip) it can be inserted while the board is active.
Once the Wedge is inserted you can easily complete the connec­tion to your scope. The Wedge connects directly to the 1155A and the 117XA family of low-mass probes and the dual-lead adapter provided with the 116XA passive probe family.
For more information on how the Wedge Probe Adapter works with your Infiniium scope, please refer to “Related Literature” at the back of this document.
Figure 9.1. Agilent Wedge Probe Adapters for secure connections to TQFP and PQFP devices.
Specifications
Operating Characteristics
Operating voltage < 40 V (dc + peak ac)
Operating current 0.5 A maximum
Capacitance between contacts 2 pF (typical); 4.3 pF at 1 MHz (Agilent E2643A/44A)
Self-inductance 15 nH (typical); 37 nH at 1 MHz (Agilent E2643A/44A)
Contact resistance < 0.1
Ordering Information
Part # Description Quantity
E2613A IC pin spacing: 0.5 mm, 3 signal 1
E2613B IC pin spacing: 0.5 mm, 3 signal 2
E2614A IC pin spacing: 0.5 mm, 8 signal 1
E2615A IC pin spacing: 0.65 mm, 3 signal 1
E2615B IC pin spacing: 0.65 mm, 3 signal 2
E2616A IC pin spacing: 0.65 mm, 8 signal 1
E2643A IC pin spacing: 0.5 mm, 16 signal 1
E2644A IC pin spacing: 0.65 mm, 16 signal 1
37
Figure 9.3. Horizontal and vertical versions of the PC board mini-probe socket make it easy to fit into your target board.
0.5 mm IC Clips
• Extremely small size
• Thin body for mounting multiple clips side-by side
• Connection to PQFP and SOIC SMT packages from 0.5 to 0.8 mm (0.020 in. to 0.032 in.) lead pitch
The 0.5 mm IC clips connect directly to the 1155A and the 117XA family of low mass probes and the dual-lead adapter provid­ed with the 116XA family of pas­sive probes. Maximum input volt­age is + 40 V.
Figure 9.2. Extremely small-sized clips for probing PQFP and SOIC SMT packages.
Specifications
Operating Characteristics
Length 31.75 mm (1.25 inch)
Tip diameter 0.75 mm (0.029 inch)
Pin diameter 0.75 mm (0.029 inch)
Ordering Information
Part # Description Quantity
10467-68701 0.5 mm IC clips 4
Probing Accessories
0.5 mm IC Clips, PC Board Mini-Probe Sockets
PC Board Mini-Probe Sockets
• Hands-free probing of through-hole devices
• Compatible with 116XA family probes
The PC board mini-probe sockets are ideal for reliable and conven­ient connection between the probe tip and the circuit under test.
Ordering Information
Part # Description Quantity
N2766A Horizontal mini-probe socket 25
N2768A Vertical mini-probe socket 25
38
EZ-Probe Positioner
• Stable X, Y, Z positioning
• 3-D joystick, 3:1 motion reduction
• Compatible with all Agilent hand-held probes
The revolutionary EZ-Probe Positioner provides stable, accu­rate X, Y, and Z positioning in one fluid motion. Its unique 3-D joy­stick, with 3:1 motion reduction and single-clutch, fully articulat­ed arm, allow simple, precise positioning in anything from card cages to MCMs. And, since you can easily attach any of your cur­rent handheld probes, it instantly integrates into your current prob­ing environment.
Figure 9.4. A fully articulated arm allows positioning in a variety of applications.
Specifications
Operating Characteristics
Vacuum base area 82.3 x 53.3 mm (3.2 x 2.1 inch)
Weight 1.2 kg (2.65 lb.)
Joystick X-Y-Z travel 17 x 17 x 13 mm (0.65 x 0.65 x 0.5 inch)
Arm adjustment reach 100 - 220 mm (3.9 - 8.7 inch)
Arm adjustment height 0 - 300 mm (0 - 11.8 inch)
Arm sweep angle +90°
Probe rotation range Infinite
Note: The EZ-Probe Position’s vacuum base requires up to -15.75 inch Hg vacuum for proper operation. Cascade Microtech offers vacuum pumps as well as many other EZ-Probe accessories.
Ordering Information
Part # Description Quantity
E2654A EZ-Probe Positioner includes base, joystick, 1
and articulating arm
Probing Accessories
EZ-Probe Positioner
®
39
Logic Analyzer/Oscilloscope Time Correlation
• Verify correct logical relationships between analog and digital portions of a design
• Cross-trigger and time-correlate oscilloscope and logic analyzer measurements
• Simultaneously display oscilloscope and logic analyzer waveforms
Some of the toughest measure­ment test problems involve link­ing the analog measurements of an oscilloscope and the digital measurements of a logic analyzer. But it’s too time consuming to trigger your oscilloscope from your logic analyzer and manually correlate events.
The Agilent E5850A can bridge both worlds. The Infiniium 54800 Series’ time markers work with the global markers of an Agilent 16900 Series logic analysis sys­tem or 1680/90 benchtop logic analyzer to help you track down and isolate hard-to-find problems. With the time-correlation feature, you can trigger the Infiniium oscilloscope from an Agilent logic analyzer (or vice versa), automatically deskew the wave­forms, and simultaneously view the Infiniium waveforms and the logic analyzer’s timing waveforms on the analyzer screen. The E5850A is also compatible with Agilent 16700 Series logic analysis systems.
Figure 10.1. Agilent E5850A time-correlation fixture bridges the analog and digital worlds to track down problems more quickly.
Ordering Information
Part # Description Quantity
E5850A Time-correlation fixture 1
40
VoiceControl
• Hands-free scope operation
• Speaker and gender independent
• Uses simple English commands
If you’re making multi-channel measurements on target systems with densely packed ICs, your hands are tied up holding probes, making it difficult to turn knobs and press buttons on the front panel of your oscilloscope.
To solve this problem, Infiniium scopes can be controlled with VoiceControl. Using a collar­mounted microphone, which is included, you can control front panel functions with the use of voice controls (English only), allowing hands-free operation of the scope. VoiceControl is both speaker and gender independent and does not require the oscillo­scope to be trained.
VoiceControl Functions
• Run, stop, print, autoscale, default setup, clear screen.
• Vertical controls: volts/divi­sion, offset, coupling, input impedance, channel on/off.
• Horizontal controls: time/divi­sion, delay, delayed sweep.
• Trigger controls: mode, source, slope, sweep, coupling, trigger level.
• Storage controls: save wave­forms and screen images.
• Waveform measurements.
• “Undo” and “again” commands to retract or repeat last command.
• Help for VoiceControl.
Figure 11.1. VoiceControl allows you to control the scope hands free.
Ordering Information
Part # Description Quantity
E2635A [1] VoiceControl retrofit kit for Infiniium 548XXA Series 1
N2850A VoiceControl option for Infiniium 54830B/D 1
Series with software rev. A.02.xx or below
E2682A VoiceControl option for Infiniium 54830A/B/D 1
Series and 54850A Series with software rev. A.03.10 or higher
E2633-68704 VoiceControl upgrade kit for already purchased 1
Infiniium oscilloscopes that do not have an “E2633A” product tag, or have a serial number prefix less than US3919. This kit lets you add VoiceControl software and VoiceControl hardware (sound card, collar-mounted microphone). Installation and calibration prices not included. Please contact your Agilent representative for pricing.
[1] To use the retrofit kit, you must have the following minimum Infiniium configuration: 300 MHz CPU, 64 MB RAM,
Windows
®
98 , Version A03.50 or greater of the system software, LS-120 120 MB SuperDisk drive.
To determine if your Infiniium meets these configuration criteria, look at the back of your unit. If the serial number of your unit starts with US3919 or higher, you meet these requirements. If there is a product tag with “E2633A,” “E2633-68703,” or “E2633-68701,” you meet the requirements. If you do not meet the minimum requirements, you must order an Infiniium oscilloscope performance upgrade in addition to the E2635A. Please contact your Agilent representative for selecting the right performance upgrade for your Infiniium oscilloscope.
41
1184A Testmobile
The Agilent 1184A testmobile gives you a convenient means of organizing and transporting your Infiniium oscilloscope and acces­sories. The testmobile includes a drawer for accessories (probes, cables, power cords, etc.) and a keyboard tray with adjustable tilt and height. For more information, refer to the “Agilent Test and Measurement Catalog” listed under “Related Literature” at the end of this document.
Input Devices and Storage Devices
E2610A Keyboard, E2609B Rackmount Kit, 1184A Testmobile
E2609B Rackmount Kit
The rackmount kit provides a support shelf and hardware for mounting Infiniium into EIA standard, 19 inch (487 mm) rack cabinets. When installed, the instrument occupies five vertical increments, 8.75 inches 222 mm each.
Ordering Information
Kit and Accessories
Part # Description Quantity
E2609B Rackmount kit (includes a support shelf, 1
2 rackmount rails, 1 Touchpad (E2612A), 2 brackets, and hardware)
Figure 12.2. Infiniium scope ready to fit into EIA standard 19-inch cabinets.
Figure 12.3. Agilent 1184A testmobile.
E2610A Keyboard
The E2610A keyboard, included with Agilent Infiniium oscillo­scopes, occupies less space on your bench or test cart and fits neatly into the Infiniium accessory pouch.
Ordering Information
Part # Description Quantity
E2610A Keyboard 1
Figure 12.1. The small-sized keyboard occupies minimal space on your bench.
Ordering Information
Part # Description Quantity
1184A Testmobile 1
42
Related Literature
Publication Title Publication Type Publication Number
Agilent Technologies Digital and Selection Guide 5988-8460EN/ENUS Mixed Signal Oscilloscopes
Infiniium 54830 Series Oscilloscopes Data Sheet 5988-3788EN/ENUS
Infiniium 54850 Series Oscilloscopes and Data Sheet 5988-7976EN/ENUS InfiniMax 1130 Series Probes
Infiniium 80000 Series Oscilloscopes and Data Sheet 5989-1487EN/ENUS InfiniMax II Series Probes
Agilent Mixed Signal Oscilloscopes: Video CD 5988-9288EN 6-minute Video Demonstration
Windows®and MSWindows®are U.S. registered trademarks of Microsoft Corporation. EZ-Probe Positioner
®
is a U.S. registered trademark of Cascade Microtech Inc.
Expand the capability of your Infiniium oscilloscope with a wide variety of advanced analysis options. For more information about how these advanced analy-
sis options can speed the valida­tion and debug of your digital design, reference the correspon­ding Data Sheet publication num­ber in the list below.
Product Description Application Data Sheet
N5397A FPGA Dynamic Probe for Infiniium MSOs FPGA Debug 5989-1848EN
N5400A EZJIT Plus Jitter Analysis Software Jitter Analysis 5989-0109EN
E2681A EZJIT Jitter Analysis Software Jitter Analysis 5989-0109EN
E2690A Time Interval and Jitter Analysis Software Jitter Analysis 5988-9723EN
E2688A High-speed Serial Data Analysis for Infiniium 54850/80000 Series Serial Data Analysis 5989-0108EN
N5384A High-speed Serial Data Analysis Software for Infiniium 54830 Series Serial Data Analysis 5989-0108EN
N5391A Low Speed Serial Data Analysis Software for I2C and SPI Serial Data Analysis 5989-1250EN
N5402A CAN Serial Data Analysis Software Serial Data Analysis 5989-3632EN
89601A Infiniium Oscilloscopes and 89601A Vector Signal Analysis Software Vector Signal Analysis 5989-0947EN
N5393A PCI Express Electrical Performance Validation and Compliance Software Compliance Testing 5989-1240EN
N5392A Ethernet Electrical Performance Validation and Compliance Software Compliance Testing 5989-1527EN
N5394A DVI Electrical Performance Validation and Compliance Software Compliance Testing 5989-1526EN
N5399A HDMI Electrical Performance Validation and Compliance Software Compliance Testing 5989-3047EN
N5413A DDR2 Clock Characterization Tool Compliance Testing 5989-3195EN
E2683A USB 2.0 Compliance Test Software Compliance Testing 5989-0236EN
E2625A Communications Mask Test Kit Compliance Testing 5989-0372EN
E2698A Ethernet Mask Templates Compliance Testing 5989-0372EN
E2699A My Infiniium Integration Software Customization Utility 5988-9934EN
Infiniium Advanced Analysis Options
www.agilent.com
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