Keysight Technologies 1130B User Manual
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Keysight Technologies 1130B User Manual

Differential and single-ended probes
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Keysight 1130B-Series Differential
and Single-Ended Probes
User's Guide

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Summary of Contents for Keysight Technologies 1130B

  • Page 1 Keysight 1130B-Series Differential and Single-Ended Probes User’s Guide...
  • Page 2 Notices Technology Licenses © Keysight Technologies, 2016-2019 (June 1987) or DFAR 252.227-7015 (b)(2) (November 1995), as applicable in any tech- No part of this manual may be reproduced in The hardware and/or software described in nical data. any form or by any means (including elec-...

  • Page 3: Table Of Contents

    Calibration for Solder-In and Socketed Probe Heads Calibration for Hand-held Browser Probe Heads Calibration for N5380A/B SMA Probe Heads 4 Characteristics and Specifications General Environmental Regulatory Probe Dimensions MX0100A Probe Head Dimensions 5 1130B Performance Data Plots E2675B Differential Browser E2676B Single-Ended Browser...
  • Page 4 E2679B Single-Ended Solder-in Probe Head (Full BW) E2679B Single-Ended Solder-in Probe Head (Medium BW) N5380B SMA Probe Head N2851A QuickTip Head with N2849A QuickTip 9 Performance Verification Using the 8720ES VNA successfully Procedure Performance Test Record 1130B-Series Probes User’s Guide...
  • Page 5 SPICE Model for Single-Ended Probe Heads SPICE Deck and Measured/Modeled Data Matching 11 Replacement Parts E2675B Differential Browser Probe Head E2677B Differential Solder-In Probe Head E2678A/B Differential Socketed Probe Head E2679B Single-Ended Solder-in Probe Head Other Accessories Index 1130B-Series Probes User’s Guide...
  • Page 6 1130B-Series Probes User’s Guide...

  • Page 7: Getting Started

    Keysight InfiniiMax I Series Probes User’s Guide 1 Getting Started Introduction Probe Handling Using Offset With InfiniiMax Active Probes Slew Rate Requirements for Different Technologies Available Accessories E2668B Single-Ended Connectivity Kit E2669B Differential Connectivity Kit N5450B Extreme Temp Cable Extension Kit N2880A InfiniiMax In-Line Attenuator Kit N2881A InfiniiMax DC Blocking Caps MX0102A Soldering Toolkit...

  • Page 8: Introduction

    Oscilloscope software updates to support your probe, fix known defects, and incorporate product enhancements. To download the latest firmware, go to www.keysight.com and search for your oscilloscope’s topic. Click on the “Drivers, Firmware & Software” tab. 1130B-Series Probes User’s Guide...
  • Page 9 Getting Started Figure 2 Available Probe Heads and Accessories N2849A QuickTips are also compatible with the N2848A InfiniiMode probe heads which are N OT E designed for N2830/1/2A InfiniiMax III+ and N2800/1/2/3A InfiniiMax III probes. 1130B-Series Probes User’s Guide...
  • Page 10 Inspect the shipping container for damage. Keep the damaged shipping container or cushioning material until the contents of the shipment have been checked for completeness and the probe has been checked mechanically and electrically. • Check the accessories. 1130B-Series Probes User’s Guide...
  • Page 11 Sales Office. If the shipping container is damaged, or the cushioning materials show signs of stress, notify the carrier as well as your Keysight Technologies Sales Office. Keep the shipping materials for the carrier’s inspection. The Keysight Technologies office will arrange for repair or replacement at Keysight Technologies’ option without waiting for claim settlement.

  • Page 12: Probe Handling

    Avoid damaging the connection pins. Never bend the probe head in order to “pop” it CAUTION loose from the amplifier. Do not wiggle the probe head up and down or twist it to remove the connectors from the sockets. 1130B-Series Probes User’s Guide...
  • Page 13 6. Then continue to circle your thumb, but provide a slight twist with each rotation. This allows the cable rotations to lie flat against each other and will eliminate the net twisting of the cable in the end. Figure 6 Recommended Coil for Storage 1130B-Series Probes User’s Guide...
  • Page 14 The provided velcro pads can be used to secure your probe amplifier casing to the board. Once strain relief has been provided, solder the probe tip to the circuit board and then plug the probe head into the probe amplifier. Figure 7 Correct Securing Methods 1130B-Series Probes User’s Guide...
  • Page 15 Attach a Velcro dots to both the probe amplifier and the circuit board as shown in Figure 9 on page 15. Figure 9 Using the Velcro Dots 1130B-Series Probes User’s Guide...

  • Page 16: Using Offset With Infiniimax Active Probes

    The probe offset is not used and set to zero. Since the plus and minus sides of differential signals have the same dc component, it will be subtracted out and the output of the probe will by definition be centered around ground. 1130B-Series Probes User’s Guide...
  • Page 17 The channel offset allows the waveform seen on screen to be moved as desired. The allowable dc component in the plus and minus signals is determined by the common mode range of the probe which for the 113x probe amps and 25 kW probe heads is ±6.75 V. 1130B-Series Probes User’s Guide...

  • Page 18: Slew Rate Requirements For Different Technologies

    Fibre Channel 2125 16.0 Gigabit Ethernet 1000Base-CX YES 15.5 RapidIO 8/16 2Gb 14.4 Infiniband 2.5Gb HyperTransport 1.6Gb SATA (1.5Gb) USB 2.0 DDR 200/266/333 AGP-8X * The probe specification is 18 V/ns † The probe specification is 30 V/ns 1130B-Series Probes User’s Guide...
  • Page 19 * Measurement of one side of differential signal Popular Technologies Figure 10 Slew Rates of Popular Technologies Compared to Maximum Probe Slew Rates Maximum Edge Amplitude x 0.6 -------------------------------------------------------------------------------- - Minimum 20% to 80% Rise Time 1130B-Series Probes User’s Guide...

  • Page 20: Available Accessories

    91W resistor template 01131-94311 ✓ 150W resistor template 01131-94308 ✓ 160W damped wire accessory 01130-21303 ✓ 82W resistor for full bandwidth 01130-81506 ✓ Socket for 25 mil (25/1000 inch) square pins, female on 01131-85201 both ends 1130B-Series Probes User’s Guide...

  • Page 21: E2669B Differential Connectivity Kit

    Figure 12. These probe heads allow full bandwidth probing of differential and single-ended signals. The kit can be ordered at the same time as 1130/1/2/4B probe amplifiers. Figure 12 E2669B Differential Connectivity Kit (not to scale) 1130B-Series Probes User’s Guide...
  • Page 22 N OT E performance. Either value produces a response that is well within specifications.If you have some of the older 100W resistors, ensure that you use either two 100W or two 91W resistors. Do not mix them. 1130B-Series Probes User’s Guide...

  • Page 23: N5450B Extreme Temp Cable Extension Kit

    Secure the ends of the extension cable near the probe head in the temperature CAUTION chamber such that the probe head legs are not tugged or moved around significantly. 1130B-Series Probes User’s Guide...

  • Page 24: N2880A Infiniimax In-Line Attenuator Kit

    N2880A InfiniiMax In-Line Attenuator Kit The in-line attenuators are an accessory for probes. The maximum input range of the 1130B probes are 5 V . If you need to measure larger signals, the probe’s design allows you to add the N2880A InfiniiMax in-line attenuators between the...
  • Page 25 Due to the N5380B dual-SMA probe head’s maximum input voltage specification of 2.28 V , the N5380B is not suitable for measuring signals large enough to require an added attenuator. Table 6 N2880A With 1130B-Series Probe Amplifiers Maximum Input Maximum Allowed Range Input Slew Rate...
  • Page 26 27 shows the frequency response plots for four setups: the probe without any attenuators, the probe with the 6 dB attenuators, the probe with the 12 dB attenuators, and the probe with the 20 dB attenuators. 1130B-Series Probes User’s Guide...
  • Page 27 Black = dB(Vout/Vin) + 6dB attenuator + 10.8 dB Blue = dB (Vout/Vin) + 12 dB attenuator + 10.8 dB of probe Green = dB(Vout/Vin) + 20 dB attenuator + 10.8 dB of probe Figure 14 Frequency Response 1130B-Series Probes User’s Guide...

  • Page 28: N2881A Infiniimax Dc Blocking Caps

    Figure 15 Placement of DC Blocking Caps Between Probe Amplifier and Head Figure 16 on page 28 shows the frequency response plot of the N2881A DC Blocking Caps (no probe included). Figure 16 Graph of DC Blocking Cap insertion loss (S2,1) versus frequency (DC Blocking Cap only) 1130B-Series Probes User’s Guide...

  • Page 29: Mx0102A Soldering Toolkit

    To cut a probe tip wire to a desired length. Kapton Tape (36 yards roll) 0460-3121 To provide strain-relief to the neck portion of the probe head by taping it to a flat surface (such as a DUT circuit board). 1130B-Series Probes User’s Guide...
  • Page 30 Clip as short as possible using the cutting tweezers included in the kit. * You can reorder these items using the part numbers included in the table above. 1130B-Series Probes User’s Guide...

  • Page 31: Safety Information

    Operate With Visible or Suspected Failures. If you suspect there is damage, have it inspected by a Keysight authorized service personnel. Never leave the probe connected to a conductor while it is not connected to an WARNING oscilloscope or voltage measuring instrument. 1130B-Series Probes User’s Guide...
  • Page 32 Do not attempt internal service or adjustment. Service should be carried out by a WARNING Keysight Technologies authorized service personnel. For any service needs, contact Keysight Technologies. The probe cable is a sensitive part of the probe and, therefore, you should be careful CAUTION not to damage it through excessive bending or pulling.

  • Page 33: Troubleshooting

    If this is the case, the probe head is no longer useful. A new probe head will need to be obtained either through purchase or warranty return. 1130B-Series Probes User’s Guide...
  • Page 34 If the probe is found to be defective we recommend sending it to an authorized service center for all repair and calibration needs. Perform the following steps before shipping the probe back to Keysight Technologies for service. Contact your nearest Keysight sales office for information on obtaining an RMA number and return address.

  • Page 35: Using Probe Heads

    Keysight InfiniiMax I Series Probes User’s Guide 2 Using Probe Heads Recommended Configurations at a Glance 1. MX0100A InfiniiMax Micro Probe Head 2. E2677B Differential Solder-in Head with Full BW Resistors 3. E2678B Differential Socketed Head 4. E2675B Differential Browser 5.

  • Page 36: Recommended Configurations At A Glance

    200 fF Easy, secure magnetic connection between head and tip. 1132B: 5 Use N2848A and N2849A with InfiniiMax III+ amplifier for InfiniiMode 1131B: 3.5 function. 1130B: 1.5 E2679B Single-Ended Solder-In (full bandwidth resistors) (Refer to page 64.) 1130B-Series Probes User’s Guide...
  • Page 37 1132B: ~ 1.2 For very wide spaced targets 1131B: ~ 1.2 Connection to 25 mil square pins when used with supplied sockets 1130B: ~ 1.2 * Capacitance seen by differential signals † Capacitance seen by single-ended signals 1130B-Series Probes User’s Guide...

  • Page 38: Mx0100A Infiniimax Micro Probe Head

    This probe head configuration supports the highest bandwidth and provides the full bandwidth signals (1134B: 7 GHz, 1132B: 5 GHz, 1131B: 3.5 GHz, and 1130B: 1.5 GHz) and the lowest capacitive loading for measuring both single-ended and differential signals.
  • Page 39 The probe head maintains its specified frequency response and bandwidth over the operating temperature range (–55°C to +150°C), without any need for compensation or correction. Discoloration after usage Before usage under high under high temperatures temperatures 1130B-Series Probes User’s Guide...
  • Page 40 (1134B: 7 GHz, 1132B: 5 GHz, 1131B: 3.5 GHz, and 1130B: 1.5 GHz). • 60 mil (1.5 mm) - If your DUT’s geometry allows you to use shorter lead wire length, trim the wires to this length to get the maximum performance.
  • Page 41 To solder the probe tip lead wires to DUT Trim the length of the MX0100A probe head lead wires to match your DUT’s geometry (see page 40). You may use the cutting tweezers (Keysight part number 8710-2838) included in the Soldering toolkit. 1130B-Series Probes User’s Guide...
  • Page 42 - Do not rest a soldering iron on a probe joint for more than a few seconds. Provide strain-relief to the probe head by taping its mid portion to a flat surface such as a tabletop using the double-sided foam tape (such as Keysight part 1130B-Series Probes User’s Guide...
  • Page 43 One of the advantages of the MX0100A probe head is its reusability feature. This section describes some of the cautions and tips on how to properly handle the MX0100A probe head to prevent damage and maintain high performance and reusability of the probe head. 1130B-Series Probes User’s Guide...
  • Page 44 Figure 21 Example of incorrect movement of MX0100A probe head • Use a microscope setup while performing soldering/de-soldering tasks. A microscope with the following features is recommended. • Binocular eyepieces • Adjustable magnification (at least 20x) 1130B-Series Probes User’s Guide...
  • Page 45 • either gently pull the bullet adapter from the probe head by hand • or engage a flat screwdriver on the notch provided on the bullet adapter and gently disconnect the probe head from bullet adapter. 1130B-Series Probes User’s Guide...
  • Page 46 Table 10 Required Wire Types Wire Type Wire Diameter Part Number Regular Solder Wire (lead free) .009" diameter MX0102-21302 Requires standard lead-free soldering temperatures (330 °C to 350 °C). (NOTE: This alloy melts at 217 1130B-Series Probes User’s Guide...
  • Page 47 Position the end of the new lead wire (Keysight part number MX0102-21302 or MX0102-21303 included in the MX0102A Soldering Toolkit) over the via hole. Touch the soldering iron to the side of the hole. When the solder in the hole 1130B-Series Probes User’s Guide...
  • Page 48 If it does not flow, then sufficient flux may not have been used. Cut the extra wire off using a cutting tweezer (Keysight part number 8710-2838 included in the MX0102A Soldering Toolkit). Remove the Kapton tape. 1130B-Series Probes User’s Guide...

  • Page 49: E2677B Differential Solder-In Head With Full Bw Resistors

    To install or repair resistor leads. Refer to “Replacing Resistors on E2677B/9B N OT E Solder-In Probe Heads" on page 74". Performance plots. Refer to Chapter 5, “1130B Performance Data Plots, Chapter 6, “1131B N OT E Performance Data Plots, Chapter 7, “1132B Performance Data Plots, and Chapter “1134B Performance Data Plots.
  • Page 50 Table 12 Supplied Accessories Part Description Supplied Number 91W resistor for full bandwidth 1NC3-1091 (not orderable) 150W resistor for medium bandwidth 1NC3-1150 (not orderable) 91W resistor template 01131-94311 (not orderable) 150W resistor template 01131-94308 (not orderable) 1130B-Series Probes User’s Guide...

  • Page 51: E2678B Differential Socketed Head

    This makes it easier to move the probe from one location to another. Because of the larger size of the resistor leads, the target for soldering must be larger than the solder-in probe heads. 1130B-Series Probes User’s Guide...
  • Page 52 Using Probe Heads To install or repair resistor leads. Refer to the information found in this section. N OT E Performance plots. Refer to Chapter 5, “1130B Performance Data Plots, Chapter 6, “1131B N OT E Performance Data Plots, Chapter 7, “1132B Performance Data Plots, and...
  • Page 53 01131-85201 on both ends (not orderable) 25 mil female socket w/20 mil round male pin on 01131-85202 other end (not orderable) Heats hrink socket accessory 01130-41101 (not orderable) Header adapter, 91W 01130-63201 82W resistor template 01131-94309 1130B-Series Probes User’s Guide...

  • Page 54: E2675B Differential Browser

    1130B 1132B 1131B ~3.5 1134B Figure 27 Differential Browser Performance plots. Refer to Chapter 5, “1130B Performance Data Plots, Chapter 6, “1131B N OT E Performance Data Plots, Chapter 7, “1132B Performance Data Plots, and Chapter “1134B Performance Data Plots.
  • Page 55 When holding the E2675B for extended periods of time, use the supplied ergonomic handle. Figure 29 on page 55 and Figure 30 on page 55 show how to attach and remove the handle from the probe head. Figure 29 Inserting the Probe Figure 30 Removing the Probe 1130B-Series Probes User’s Guide...
  • Page 56 Using Probe Heads Table 16 Supplied Accessories Part Description Supplied Number Resistive tip (blue), 91W 01131-62107 Ergonomic handle 01131-43201 1130B-Series Probes User’s Guide...

  • Page 57: N5380B Sma Head

    SMA probe head without any rocking (either side-to-side or up-and-down). Pulling on the probe amplifier cable or strain relief, or rocking the probe amplifier to CAUTION remove it, may damage the probe head or probe amplifier. Figure 31 Disconnecting the N5380B 1130B-Series Probes User’s Guide...
  • Page 58 The original design is no longer offered. Both the original and new design provide the same level of protection for the probe amplifier and can be attached to both N5380B and N5380A heads. Figure 32 Original and New Head Support Designs 1130B-Series Probes User’s Guide...
  • Page 59 Using Probe Heads Figure 33 N5380B Schematic 1130B-Series Probes User’s Guide...

  • Page 60: N2851A Quicktip Probe Head

    Be aware that without the ground leads, the mechanical stability of the QuickTip will be reduced and you will need to stabilize the probe head. 1130B-Series Probes User’s Guide...
  • Page 61 Do not replace or repair the N2849A QuickTip’s resistor or ground leads. Attempting to CAUTION do so will damage the ability of the tip to mate with the N2851A probe head. The N2851A does not include any N2849A QuickTips. The N2849A must be ordered N OT E separately. 1130B-Series Probes User’s Guide...
  • Page 62 The QuickTips are very fragile. They must be manufactured in this way in order to meet CAUTION the high-performance, high bandwidth applications they are intended for. Be extremely careful when handling. 1130B-Series Probes User’s Guide...
  • Page 63 Use compressed air or a cloth to remove any loose dirt. Gently rub a small piece of tack putty (supplied with the probe) against the magnetic connections to clean off any remaining surface grime. Figure 36 N2851A Head Before and After Cleaning 1130B-Series Probes User’s Guide...

  • Page 64: E2679B Single-Ended Solder-In Head

    To install or repair resistor leads. Refer to “Replacing Resistors on E2677B/9B N OT E Solder-In Probe Heads" on page 74". Performance plots. Refer to Chapter 5, “1130B Performance Data Plots, Chapter 6, “1131B N OT E Performance Data Plots, Chapter 7, “1132B Performance Data Plots, and Chapter “1134B Performance Data Plots.

  • Page 65: E2676B Single-Ended Browser

    When holding the E2676B for extended periods of time, use the supplied ergonomic handle. Figure 39 Figure 40 show how to attach and remove the handle from the probe head. Figure 39 Inserting the Probe into the Handle 1130B-Series Probes User’s Guide...
  • Page 66 Using Probe Heads Figure 40 Removing the Probe from the Handle 1130B-Series Probes User’s Guide...

  • Page 67: E2677B Differential Solder-In Head With Medium Bw Resistors

    This configuration can probe circuit points that are farther apart than the full bandwidth configurations. To install or repair resistor leads. Refer to “Replacing Resistors on E2677B/9B N OT E Solder-In Probe Heads" on page 74". 1130B-Series Probes User’s Guide...
  • Page 68 Using Probe Heads Performance plots. Refer to Chapter 5, “1130B Performance Data Plots, Chapter 6, “1131B N OT E Performance Data Plots, Chapter 7, “1132B Performance Data Plots, and Chapter “1134B Performance Data Plots. 1130B-Series Probes User’s Guide...

  • Page 69: E2679B Single-Ended Solder-In Head With Long Wire

    This configuration can probe circuit points that are farther apart than the full bandwidth configurations. To install or repair resistor leads. Refer to “Replacing Resistors on E2677B/9B N OT E Solder-In Probe Heads" on page 74". 1130B-Series Probes User’s Guide...
  • Page 70 Table 23 Supplied Accessories Part Description Supplied Number 91W resistor for full bandwidth 1NC3-1091 150W resistor for medium bandwidth 1NC3-1150 0W resistor for full and medium bandwidth 1NC3-1000 91W resistor template 01131-94311 150W resistor template 01131-94308 * Not orderable. 1130B-Series Probes User’s Guide...

  • Page 71: E2678B Differential Socketed Head With Damped Wire Accessory

    The damped wires must be soldered to the circuit that you are measuring. This configuration can probe circuit points that are farther apart than other configurations. This probe head come with a damped wire accessory that includes two 160W resistors. 1130B-Series Probes User’s Guide...
  • Page 72 Using Probe Heads Performance plots. Refer to Chapter 5, “1130B Performance Data Plots, Chapter 6, “1131B N OT E Performance Data Plots, Chapter 7, “1132B Performance Data Plots, and Chapter “1134B Performance Data Plots. 1130B-Series Probes User’s Guide...

  • Page 73: E2678B Differential Socketed Head With Header Adapter

    100 mil spacing such as those used in USB testing. The header adapter is recommended for use with the 1130B and 1131B InfiniiMax probes. If the header adapter is used with higher bandwidth probe amplifiers such as the 1132B (5...

  • Page 74: Replacing Resistors On E2677B/9B Solder-In Probe Heads

    0.381 mm (0.015 in) diameter RMA flux standard tin/lead solder wire Fine stainless steel tweezers Rosin flux pencil, RMA type (Kester #186 or equivalent) Diagonal cutters Magnifier or low power microscope Keysight supplied trim gauge (01131-94311) 1130B-Series Probes User’s Guide...
  • Page 75 90° bend to go into through hole in the tip pc board. Using tweezers, place the resistor body inside the rectangle of the trim template. 1130B-Series Probes User’s Guide...
  • Page 76 Place resistor body inside the rectangle of the bend template. Using another pair of tweezers, bend the 1.90 mm or 8.89 mm lead 90° as shown in Figure 47 Figure Figure 47 91W and 0W Combination Resistor Trim Dimensions 1130B-Series Probes User’s Guide...
  • Page 77 For the E2677B differential solder-in probe head, the + and – connection can be determined N OT E when the probe head is plugged into the probe amplifier, so which way the tip is soldered in is not important. 1130B-Series Probes User’s Guide...
  • Page 78 Using Probe Heads 1130B-Series Probes User’s Guide...

  • Page 79: Calibrating Probes

    Calibration for Solder-In and Socketed Probe Heads Calibration for Hand-held Browser Probe Heads Calibration for N5380A/B SMA Probe Heads Calibrating the InfiniiMax probes (1168B, 1169B, 1130B, 1131B, 1132B, 1134B) is done using the E2655C Deskew and Calibration Kit. The kit contains the following parts: •...

  • Page 80: Calibration For Solder-In And Socketed Probe Heads

    For the socketed probe head, insert two properly trimmed 82Ω resistors into the sockets. N OT E Release the yellow pincher. To ensure contact, pull up on the back side of the yellow pincher to ensure good contact N OT E between resistor leads and the deskew fixture. 1130B-Series Probes User’s Guide...
  • Page 81 Figure 51, then you have a bad connection and should check all of your probe connections. InfiniiMax Probe BNC to SMA Connector Pincher Deskew Fixture 50W SMA Terminator Figure 49 Connecting the Probe and Deskew Fixture 1130B-Series Probes User’s Guide...
  • Page 82 In the Probe Setup dialog box select the Calibrate Probe... button. In the Probe Cal dialog box select the Calibrated Atten/Offset radio button. Select the Start Atten/Offset Calibration... button and follow the on-screen instructions for the vertical calibration procedure. 1130B-Series Probes User’s Guide...
  • Page 83 The negative probe head resistor lead or ground lead must be underneath the yellow pincher and over one of the outside copper conductors (ground) of the deskew fixture. Make sure that the probe head is approximately perpendicular to the deskew fixture. 1130B-Series Probes User’s Guide...
  • Page 84 Select the Setup menu choose Acquisition... from the pull-down menu. In the Acquisition Setup dialog box enable averaging. When you close the dialog box, you should see waveforms similar to that in Figure 53 on page 86. 1130B-Series Probes User’s Guide...
  • Page 85 Calibrating Probes BNC to SMA Connector BNC Cable InfiniiMax Probe Pincher Deskew Fixture SMA to BNC Connector Figure 52 Connecting the Probe 1130B-Series Probes User’s Guide...
  • Page 86 Calibrating Probes Figure 53 Overlapping Waveforms 1130B-Series Probes User’s Guide...

  • Page 87: Calibration For Hand-Held Browser Probe Heads

    Select the Start Atten/Offset Calibration... button and follow the on-screen instructions for the vertical calibration procedure. Once the vertical calibration has successfully completed, select the Calibrated Skew... button. Select the Start Skew Calibration... button and follow the on-screen instructions for the skew calibration. 1130B-Series Probes User’s Guide...
  • Page 88 Calibrating Probes InfiniiMax Probe BNC to SMA Connector Pincher Deskew Fixture Figure 54 Placing the Probe on the Fixture 1130B-Series Probes User’s Guide...

  • Page 89: Calibration For N5380A/B Sma Probe Heads

    Start the calibration by selecting the Atten/Offset Cal... button in the Probe Configuration dialog box (Setup > Probe Configuration...) N5380B SMA Probe Head SMA to Connector Deskew Fixture Figure 55 Connecting the SMA Probe Head and Deskew Fixture 1130B-Series Probes User’s Guide...
  • Page 90 Calibrating Probes 1130B-Series Probes User’s Guide...
  • Page 91 Keysight InfiniiMax I Series Probes User’s Guide 4 Characteristics and Specifications General Environmental Regulatory Probe Dimensions All warranted specifications are denoted by a footnote reference number. All other characteristics are typical values.

  • Page 92: Characteristics And Specifications

    Cg is to ground for each tip 0.34 pF Cdiff 0.27 pF Differential mode capacitance (capacitance when probing a differential signal = Cm + Cg/2) 0.44 pF Single-ended mode capacitance (capacitance when probing a single-ended signal = Cm + Cg) 1130B-Series Probes User’s Guide...
  • Page 93 >- Denotes that bandwidth is a warranted specification, all others are typical. Measured using the probe amplifier and solder- in differential probe head with full bandwidth resistor. † SR of a sine wave = 2 P(Amp x frequency or SR ) of a step @ Amp x 0.6 / trise (20 to 80%) for more information refer to Table 2 page 18. 1130B-Series Probes User’s Guide...

  • Page 94: Environmental

    Weight approximately 0.69 kg Dimensions Refer to the outline in Figure 56 on page 96 Pollution degree 2 Normally only non-conductive pollution occurs. Occasionally, however, a temporary conductivity caused by condensation must be expected. Indoor Only 1130B-Series Probes User’s Guide...

  • Page 95: Regulatory

    WEEE Directive Annex I, this product is classed as a "Monitoring and Control Instrumentation" product. Do not dispose in domestic household waste. To return unwanted products, contact your local Keysight office, or see www.keysight.com for more information. 1130B-Series Probes User’s Guide...

  • Page 96: Probe Dimensions

    Characteristics and Specifications Probe Dimensions Figure 56 Probe Dimensions 1130B-Series Probes User’s Guide...

  • Page 97: Mx0100A Probe Head Dimensions

    Characteristics and Specifications MX0100A Probe Head Dimensions All dimensions are in mm [inches]. Figure 57 MX0100A Probe Head Dimensions 1130B-Series Probes User’s Guide...
  • Page 98 Characteristics and Specifications 1130B-Series Probes User’s Guide...

  • Page 99: 1130B Performance Data Plots

    E2679B Single-Ended Solder-in Probe Head (Medium BW) N2851A QuickTip Head with N2849A QuickTip This chapter provides graphs of the performance characteristics of the 1130B probes using the different probe heads that come with the E2668b single-ended and E2669B differential connectivity kits.

  • Page 100: E2675B Differential Browser

    1130B Performance Data Plots E2675B Differential Browser Figure 58 Graph of 25 ohm 405.4 ps step generator with and without probe connected. Figure 59 Graph of Vin and Vout of probe with a 25 ohm 405.4 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 101 1130B Performance Data Plots Figure 60 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Figure 61 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 102 1130B Performance Data Plots Figure 62 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 103: E2676B Single-Ended Browser

    1130B Performance Data Plots E2676B Single-Ended Browser Figure 63 Graph of 25 ohm 405.4 ps step generator with and without probe connected. Figure 64 Graph of Vin and Vout of probe with a 25 ohm 405.4 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 104 1130B Performance Data Plots Figure 65 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Figure 66 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 105 1130B Performance Data Plots Figure 67 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 106: E2677B Differential Solder-In Probe Head (Full Bw)

    1130B Performance Data Plots E2677B Differential Solder-in Probe Head (Full BW) Figure 68 Graph of 25 ohm 100 ps step generator with and without probe connected. Figure 69 Graph of Vin and Vout of probe with a 25 ohm 405.4 ps step generator.
  • Page 107 1130B Performance Data Plots Figure 70 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Figure 71 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 108 1130B Performance Data Plots Figure 72 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 109: E2677B Differential Solder-In Probe Head (Medium Bw)

    1130B Performance Data Plots E2677B Differential Solder-in Probe Head (Medium BW) Figure 73 Graph of 25 ohm 405.4 ps step generator with and without probe connected. Figure 74 Graph of Vin and Vout of probe with a 25 ohm 405.4 ps step generator.
  • Page 110 1130B Performance Data Plots Figure 75 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Figure 76 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 111 1130B Performance Data Plots Figure 77 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 112: E2678A/B Differential Socketed Probe Head (Full Bw)

    1130B Performance Data Plots E2678A/B Differential Socketed Probe Head (Full BW) Figure 78 Graph of 25 ohm 405.4 ps step generator with and without probe connected. Figure 79 Graph of Vin and Vout of probe with a 25 ohm 405.4 ps step generator.
  • Page 113 1130B Performance Data Plots Figure 80 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Figure 81 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 114 1130B Performance Data Plots Figure 82 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 115: E2678A/B Differential Socketed Probe Head With Damped Wire Accessory

    1130B Performance Data Plots E2678A/B Differential Socketed Probe Head with Damped Wire Accessory Due to reflections on the long wire accessories, signals being probed should be limited to N OT E £240 ps rise time measured at the 10% and 90% amplitude levels. This is equivalent to ¢ 4.5 GHz bandwidth.
  • Page 116 1130B Performance Data Plots Figure 85 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Figure 86 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 117 1130B Performance Data Plots Figure 87 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 118: E2679B Single-Ended Solder-In Probe Head (Full Bw)

    1130B Performance Data Plots E2679B Single-Ended Solder-in Probe Head (Full BW) Figure 88 Graph of 25 ohm 405.4 ps step generator with and without probe connected. Figure 89 Graph of Vin and Vout of probe with a 25 ohm 405.4 ps step generator.
  • Page 119 1130B Performance Data Plots Figure 90 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Figure 91 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 120 1130B Performance Data Plots Figure 92 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 121: E2679B Single-Ended Solder-In Probe Head (Medium Bw)

    1130B Performance Data Plots E2679B Single-Ended Solder-in Probe Head (Medium BW) Figure 93 Graph of 25 ohm 405.4 ps step generator with and without probe connected. Figure 94 Graph of Vin and Vout of probe with a 25 ohm 405.4 ps step generator.
  • Page 122 1130B Performance Data Plots Figure 95 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Figure 96 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 123 1130B Performance Data Plots Figure 97 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 124: N2851A Quicktip Head With N2849A Quicktip

    1130B Performance Data Plots N2851A QuickTip Head with N2849A QuickTip Figure 98 Input Impedances (Modeled and Measured) 1130B-Series Probes User’s Guide...

  • Page 125: 1131B Performance Data Plots

    Keysight InfiniiMax I Series Probes User’s Guide 6 1131B Performance Data Plots E2675B Differential Browser E2676B Single-Ended Browser E2677B Differential Solder-in Probe Head (Full BW) E2677B Differential Solder-in Probe Head (Medium BW) E2678A/B Differential Socketed Probe Head (Full BW) E2678A/B Differential Socketed Probe Head with Damped Wire Accessory E2679B Single-Ended Solder-in Probe Head (Full BW) E2679B Single-Ended Solder-in Probe Head (Medium BW) N2851A QuickTip Head with N2849A QuickTip...

  • Page 126: E2675B Differential Browser

    Figure 99 Graph of 25Ω 200 ps step generator with and without probe connected. tr = 219 ps 0.15 Vout tr = 224 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 100 Graph of Vin and Vout of probe with a 25Ω 200 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 127 Frequency (H z) Figure 101 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 102 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 128 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ 0.32 pF Zmin = 229.2 Ω 0.57 pF Ω Zmin = 153.4 Ω Frequency (H z) Figure 103 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 129: E2676B Single-Ended Browser

    Figure 104 Graph of 25Ω 200 ps step generator with and without probe connected. tr = 232 ps 0.15 Vout tr = 229 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 105 Graph of Vin and Vout of probe with a 25Ω 200 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 130 Frequency (H z) Figure 106 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 107 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 131 1131B Performance Data Plots 25 kΩ Ω 0.65 pF Zmin = 120 Ω Frequency (H z) Figure 108 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 132: E2677B Differential Solder-In Probe Head (Full Bw)

    Figure 109 Graph of 25 ohm 200 ps step generator with and without probe connected. tr = 220 0.15 V olts Vout tr = 236 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 110 Graph of Vin and Vout of probe with a 25 ohm 200 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 133 Figure 111 Graph of Vin and Vout of probe with a 25 ohm source and Vout/Vin frequency response. Frequency (H z) Figure 112 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 134 1131B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ 0.27 pF Zmin = 272.8 Ω 0.44 Ω Zmin = 201.8 Ω Frequency (H z) Figure 113 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 135: E2677B Differential Solder-In Probe Head (Medium Bw)

    Figure 114 Graph of 25Ω 200 ps step generator with and without probe connected. tr = 223 ps 0.15 V olts tr = 287 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 115 Graph of Vin and Vout of probe with a 25Ω 200 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 136 Frequency (H z) Figure 116 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 117 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 137 1131B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ 0.33 Zmin = 343.3 Ω 0.52 Ω Zmin = 251.6 Ω Frequency (H z) Figure 118 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 138: E2678A/B Differential Socketed Probe Head (Full Bw)

    Figure 119 Graph of 25Ω 200 ps step generator with and without probe connected. tr = 225 ps 0.15 V olts Vout tr = 247 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 120 Graph of Vin and Vout of probe with a 25Ω 200 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 139 Frequency (H z) Figure 121 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 122 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 140 1131B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ Zmin = 234.9 0.34 Ω Ω 0.56 pF Zmin = 174.6 Ω Frequency (H z) Figure 123 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 141: E2678A/B Differential Socketed Probe Head With Damped Wire Accessory

    Figure 124 Graph of 25Ω 240 ps step generator with and without probe connected. tr = 258 ps 0.15 Vout V olts tr = 354 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 125 Graph of Vin and Vout of probe with a 25Ω 240 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 142 Frequency (H z) Figure 126 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 127 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 143 1131B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 0.63 pF 25 kΩ Zmin = 344.0 Ω 0.95 Ω Zmin = 248.9 Ω Frequency (H z) Figure 128 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 144: E2679B Single-Ended Solder-In Probe Head (Full Bw)

    Figure 129 Graph of 25Ω 200 ps step generator with and without probe connected. tr = 225 ps 0.15 Vout tr= 225 V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 130 Graph of Vin and Vout of probe with a 25Ω 200 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 145 Frequency (H z) Figure 131 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 132 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 146 1131B Performance Data Plots 25 kΩ Ω 0.50 pF Zmin = 142.9 Ω Frequency (H z) Figure 133 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 147: E2679B Single-Ended Solder-In Probe Head (Medium Bw)

    Figure 134 Graph of 25Ω 200 ps step generator with and without probe connected. Vout tr = 257 ps 0.15 tr = 229 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 135 Graph of Vin and Vout of probe with a 25Ω 200 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 148 Frequency (H z) Figure 136 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 137 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 149 1131B Performance Data Plots 25 kΩ 0.58 Ω Zmin = 197.6 Ω Frequency (H z) Figure 138 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 150: N2851A Quicktip Head With N2849A Quicktip

    1131B Performance Data Plots N2851A QuickTip Head with N2849A QuickTip Figure 139 Input Impedances (Modeled and Measured) 1130B-Series Probes User’s Guide...

  • Page 151: 1132B Performance Data Plots

    Keysight InfiniiMax I Series Probes User’s Guide 7 1132B Performance Data Plots E2675B Differential Browser E2676B Single-Ended Browser E2677B Differential Solder-in Probe Head (Full BW) E2677B Differential Solder-in Probe Head (Medium BW) E2678A/B Differential Socketed Probe Head (Full BW) E2678A/B Differential Socketed Probe Head with Damped Wire Accessory E2679B Single-Ended Solder-in Probe Head (Full BW) E2679B Single-Ended Solder-in Probe Head (Medium BW) N2851A QuickTip Head with N2849A QuickTip...

  • Page 152: E2675B Differential Browser

    Figure 140 Graph of 25Ω 100 ps step generator with and without probe connected. Vout tr = 151 ps 0.15 V olts tr = 162 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 141 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 153 Frequency (H z) Figure 142 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 143 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 154 1132B Performance Data Plots Differential 50 kΩ Mode Input Single-ended 25 kΩ 0.32 Mode Input Zmin = 229.2 Ω 0.57 Ω Zmin = 153.4 Ω Frequency (H z) Figure 144 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 155: E2676B Single-Ended Browser

    Figure 145 Graph of 25Ω 100 ps step generator with and without probe connected. Vout tr = 170 ps 0.15 tr = 146 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 146 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 156 Frequency (H z) Figure 147 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 148 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 157 1132B Performance Data Plots 25 kΩ Ω 0.65 pF Zmin = 120 Ω Frequency (H z) Figure 149 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 158: E2677B Differential Solder-In Probe Head (Full Bw)

    Figure 150 Graph of 25Ω 100 ps step generator with and without probe connected. tr = 158 ps 0.15 Vout tr = 172 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 151 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 159 Frequency (H z) Figure 152 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 153 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 160 1132B Performance Data Plots Differential 50 kΩ Mode Input Single-ended 25 kΩ Mode Input 0.27 pF Zmin = 272.8 Ω 0.44 Ω Zmin = 201.8 Ω Frequency (H z) Figure 154 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 161: E2677B Differential Solder-In Probe Head (Medium Bw)

    Figure 155 Graph of 25Ω 100 ps step generator with and without probe connected. tr = 158 ps 0.15 V olts tr = 236 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 156 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 162 Frequency (H z) Figure 157 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 158 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 163 1132B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ 0.33 pF Zmin = 343.3 Ω 0.52 Ω Zmin = 251.6 Ω Frequency (H z) Figure 159 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 164: E2678A/B Differential Socketed Probe Head (Full Bw)

    Figure 160 Graph of 25Ω 100 ps step generator with and without probe connected. tr = 162 ps 0.15 Vout V olts tr = 185 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 161 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 165 Frequency (H z) Figure 162 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 163 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 166 1132B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ 0.34 Zmin = 234.9 Ω Ω 0.56 Zmin = 174.6 Ω Frequency (H z) Figure 164 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 167: E2678A/B Differential Socketed Probe Head With Damped Wire Accessory

    Figure 165 Graph of 25Ω 240 ps step generator with and without probe connected. tr = 256 ps 0.15 V olts Vout tr = 391 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 166 Graph of Vin and Vout of probe with a 25Ω 240 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 168 Frequency (H z) Figure 167 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 168 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 169 50 kΩ Differential Mode Input 0.63 pF Single-ended Mode Input 25 kΩ Zmin = 344.0 Ω 0.95 pF Ω Zmin = 248.9 Ω Frequency (H z) Figure 169 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 170: E2679B Single-Ended Solder-In Probe Head (Full Bw)

    Figure 170 Graph of 25Ω 100 ps step generator with and without probe connected. Vout tr= 166 0.15 tr = 165 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 171 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 171 Frequency (H z) Figure 172 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 173 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 172 1132B Performance Data Plots 25 kΩ Ω 0.50 pF Zmin = 142.9 Ω Frequency (H z) Figure 174 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 173: E2679B Single-Ended Solder-In Probe Head (Medium Bw)

    Figure 175 Graph of 25Ω 100 ps step generator with and without probe connected. 0.15 tr = 165 ps Vout tr = 211 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 176 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 174 Frequency (H z) Figure 177 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 178 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 175 1132B Performance Data Plots 25 kΩ 0.58 pF Ω Zmin = 197.6 Ω Frequency (H z) Figure 179 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 176: N2851A Quicktip Head With N2849A Quicktip

    1132B Performance Data Plots N2851A QuickTip Head with N2849A QuickTip Figure 180 Input Impedances (Modeled and Measured) 1130B-Series Probes User’s Guide...

  • Page 177: 1134B Performance Data Plots

    Keysight InfiniiMax I Series Probes User’s Guide 8 1134B Performance Data Plots E2675B Differential Browser E2676B Single-Ended Browser E2677B Differential Solder-in Probe Head (Full BW) E2677B Differential Solder-in Probe Head (Medium BW) E2678A/B Differential Socketed Probe Head (Full BW) E2678A/B Differential Socketed Probe Head with Damped Wire Accessory E2679B Single-Ended Solder-in Probe Head (Full BW) E2679B Single-Ended Solder-in Probe Head (Medium BW) N5380B SMA Probe Head...

  • Page 178: E2675B Differential Browser

    Figure 181 Graph of 25Ω 100 ps step generator with and without probe connected. Vout tr = 109 ps 0.15 V olts 0.05 tr = 124 ps -0.05 Tim e (Seconds) x 10 Figure 182 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 179 Frequency (H z) Figure 183 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 184 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 180 1134B Performance Data Plots Differential 50 kΩ Mode Input Single-ended Mode Input 25 kΩ 0.32 pF Zmin = 229.2 Ω 0.57 Ω Zmin = 153.4 Ω Frequency (H z) Figure 185 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 181: E2676B Single-Ended Browser

    Figure 186 Graph of 25Ω 100 ps step generator with and without probe connected. Vout tr = 125 ps 0.15 tr = 135 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 187 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 182 Frequency (H z) Figure 188 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 189 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 183 1134B Performance Data Plots 25 kΩ Ω 0.65 Zmin = 120 Ω Frequency (H z) Figure 190 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 184: E2677B Differential Solder-In Probe Head (Full Bw)

    Figure 191 Graph of 25Ω 100 ps step generator with and without probe connected tr = 116 0.15 Vout V olts tr = 121 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 192 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 185 Frequency (H z) Figure 193 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 194 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 186 1134B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ 0.27 Zmin = 272.8 Ω 0.44 Ω Zmin = 201.8 Ω Frequency (H z) Figure 195 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 187: E2677B Differential Solder-In Probe Head (Medium Bw)

    Figure 196 Graph of 25Ω 100 ps step generator with and without probe connected. tr = 115 ps 0.15 V olts tr = 192 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 197 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 188 Frequency (H z) Figure 198 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 199 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 189 1134B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ 0.33 pF Zmin = 343.3 Ω 0.52 Ω Zmin = 251.6 Ω Frequency (H z) Figure 200 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 190: E2678A/B Differential Socketed Probe Head (Full Bw)

    Figure 201 Graph of 25Ω 100 ps step generator with and without probe connected. tr = 127 ps 0.15 V olts Vout tr = 107 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 202 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 191 Frequency (H z) Figure 203 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 204 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 192 1134B Performance Data Plots 50 kΩ Differential Mode Input Single-ended Mode Input 25 kΩ 0.34 Zmin = 234.9 Ω Ω 0.56 Zmin = 174.6 Ω Frequency (H z) Figure 205 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 193: E2678A/B Differential Socketed Probe Head With Damped Wire Accessory

    Figure 206 Graph of 25Ω 240 ps step generator with and without probe connected. tr = 258 ps 0.15 Vout V olts tr = 358 ps 0.05 -0.05 Tim e (Seconds) x 10 Figure 207 Graph of Vin and Vout of probe with a 25Ω 240 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 194 Frequency (H z) Figure 208 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 209 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 195 1134B Performance Data Plots 50 kΩ Differential Mode Input Single-ended 0.63 pF 25 kΩ Mode Input Zmin = 344.0 Ω 0.95 Ω Zmin = 248.9 Ω Frequency (H z) Figure 210 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 196: E2679B Single-Ended Solder-In Probe Head (Full Bw)

    Figure 211 Graph of 25Ω 100 ps step generator with and without probe connected. Vout tr= 118 0.15 tr = 128 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 212 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 197 Frequency (H z) Figure 213 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 214 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 198 1134B Performance Data Plots 25 kΩ Ω 0.50 Zmin = 142.9 Ω Frequency (H z) Figure 215 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 199: E2679B Single-Ended Solder-In Probe Head (Medium Bw)

    Figure 216 Graph of 25Ω 100 ps step generator with and without probe connected. Vout tr = 180 ps 0.15 tr = 120 ps V olts 0.05 -0.05 Tim e (Seconds) x 10 Figure 217 Graph of Vin and Vout of probe with a 25Ω 100 ps step generator. 1130B-Series Probes User’s Guide...
  • Page 200 Frequency (H z) Figure 218 Graph of Vin and Vout of probe with a 25Ω source and Vout/Vin frequency response. Frequency (H z) Figure 219 Graph of Vout/Vin frequency response when inputs driven in common (common mode rejection). 1130B-Series Probes User’s Guide...
  • Page 201 1134B Performance Data Plots 25 kΩ 0.58 Ω Zmin = 197.6 Ω Frequency (H z) Figure 220 Magnitude plot of probe input impedance versus frequency. 1130B-Series Probes User’s Guide...

  • Page 202: N5380B Sma Probe Head

    = 60 ps 0.15 tr20-80% = 58.8 0.05 -0.05 Time (Seconds) x 10 Figure 221 Vincident and Vout of probe with a 90 ps step Frequency (Hz) Figure 222 Magnitude plot of differential return loss 1130B-Series Probes User’s Guide...
  • Page 203 1134B Performance Data Plots BW(-3 dB) = 8 GHz Frequency (Hz) Figure 223 Magnitude response of differential insertion loss +16.03 dB 1130B-Series Probes User’s Guide...

  • Page 204: N2851A Quicktip Head With N2849A Quicktip

    1134B Performance Data Plots N2851A QuickTip Head with N2849A QuickTip Figure 224 Input Impedances (Modeled and Measured) 1130B-Series Probes User’s Guide...

  • Page 205: Performance Verification

    Keysight InfiniiMax I Series Probes User’s Guide 9 Performance Verification Using the 8720ES VNA successfully Procedure Performance Test Record This chapter describes how to verify the bandwidth performance of the probe. Electrostatic discharge (ESD) can quickly and imperceptibly damage or destroy high CAUTION performance probes, resulting in costly repairs.

  • Page 206: Using The 8720Es Vna Successfully

    • Make sure all connections are tight and secure. If needed, use a vise to hold the cables and test board stable while making measurements. • Be careful not to cross thread or force any connectors. This could be a very costly error to correct. 1130B-Series Probes User’s Guide...

  • Page 207: Procedure

    Press the full 2 port screen key. Connect one of the high quality SMA cables from the VNA’s Port 1 to the pincher side of PV Fixture as shown in Figure 226. The figure also identifies the calibration reference plane. 1130B-Series Probes User’s Guide...
  • Page 208 Wait until the VNA beeps indicating that it has completed the task. Press the done loads screen key. You have just calibrated one side of the reference plane. Connect the other high quality SMA cable to the VNA’s PORT 2 connector. 1130B-Series Probes User’s Guide...
  • Page 209 Wait until the VNA beeps indicating that it has completed the task. Press the done loads screen key. You have just calibrated the other side of the reference plane. Press standards done key. Connect PORT 2 SMA cable to the non-pincher side of PV Fixture. 1130B-Series Probes User’s Guide...
  • Page 210 Ensure s21 response on screen is flat (about ±0.1 dB) out to 10 GHz. Measuring Vin Response Position 1134B probe conveniently to make quality connections on the PV fixture. Ensure resistors at the probe tip are reasonably straight and about 0.1 inches apart. 1130B-Series Probes User’s Guide...
  • Page 211 Figure 230 on page 211. Figure 230 Typical V Waveform for an 1134B Probe Select [display] key then data->memory screen key. You have now saved V waveform into the VNA's memory for future use. 1130B-Series Probes User’s Guide...
  • Page 212 Then select the Data/Memory screen key. You may need to adjust the Reference Value, located under the Scale Ref key, slightly to position the waveform at center screen. The waveform should be similar to that shown in Figure 232 page 213. 1130B-Series Probes User’s Guide...
  • Page 213 Press marker key and position the marker to the first point that the signal is –3 dB below center screen. Read marker frequency measurement and record it in the test record located later in this chapter. The bandwidth test passes if the frequency measurement is greater that the probe's bandwidth limit. 1130B-Series Probes User’s Guide...

  • Page 214: Performance Test Record

    Performance Test Record Table 31 Performance Test Record Model #: Date: Recommended next test date: Serial #: Tested by: Probe Amplifier Test Limits Result Pass/Fail 1130B 1.5 GHz 1131B 3.5 GHz 1132B 5 GHz 1134B 7 GHz 1130B-Series Probes User’s Guide...

  • Page 215: Spice Models

    Keysight InfiniiMax I Series Probes User’s Guide 10 SPICE Models SPICE Model for Differential Probe Heads SPICE Model for Single-Ended Probe Heads SPICE Deck and Measured/Modeled Data Matching E2675B Differential Browser Probe Head E2678A/B Differential Socket Tip Probe Head E2677B Differential Solder-In Probe Head E2676B Single-Ended Browser Probe Head E2679B Single-Ended Solder-In Probe Head N2851A QuickTip Head with N2849A QuickTip Tip...
  • Page 216 Additionally, an input impedance plot is given that shows the matching of the measured data to the modeled data. Matching is generally very good up to the specified BW of the probe head with the 7 GHz probe amp. 1130B-Series Probes User’s Guide...

  • Page 217: Spice Model For Differential Probe Heads

    If using diff probe to probe differential signals: • Rc (or Zc) will depend on the DUT circuit • vplus connected to DUT plus signal • vminus connected to DUT minus signal. • Input impedance is defined to be (vplus/vminus) / i (vsplus) 1130B-Series Probes User’s Guide...

  • Page 218: Spice Model For Single-Ended Probe Heads

    RL similar to Rom || Lom. Will have slight effect on input Z. Probe tip C to DUT ground lumped into Csgl since there is no damping R in ground path. Input impedance is defined as vplus/i(vsplus). 1130B-Series Probes User’s Guide...

  • Page 219: Spice Deck And Measured/Modeled Data Matching

    Rrtn %DUT_Ground %0 .0001 %164 %DUT_Ground .0001 Rlossp %99 %159 value=rloss Rlossm %160 %95 value=rloss %159 %118 value=rd %117 %160 value=rd %vdom %89 value=rt %88 %vdop value=rt Rcxp %vdop %122 Rcxm %122 %vdom %122 %0 value=rom 1130B-Series Probes User’s Guide...

  • Page 220: E2678A/B Differential Socket Tip Probe Head

    Cgm2 %84 %122 value=cg1/2 Cgm1 %95 %DUT_Ground value=cg1/2 %99 %95 value=cm/2 Cgp3 %86 %122 value=cg2/2 %85 %84 value=cm/2 Cgm4 %122 %vdom value=cg2/2 Cgm3 %122 %87 value=cg2/2 Cgp4 %vdop %122 value=cg2/2 %vdop %88 value=ct %89 %vdom value=ct 1130B-Series Probes User’s Guide...
  • Page 221 Rrtn %DUT_Ground %0 .0001 %164 %DUT_Ground .0001 Rlossp %99 %159 value=rloss Rlossm %160 %95 value=rloss %159 %118 value=rd %117 %160 value=rd %vdom %89 value=rt %88 %vdop value=rt Rcxp %vdop %122 Rcxm %122 %vdom %122 %0 value=rom 1130B-Series Probes User’s Guide...

  • Page 222: E2677B Differential Solder-In Probe Head

    Rrtn %DUT_Ground %0 .0001 %164 %DUT_Ground .0001 Rlossp %99 %159 value=rloss Rlossm %160 %95 value=rloss %159 %118 value=rd %117 %160 value=rd %vdom %89 value=rt %88 %vdop value=rt Rcxp %vdop %122 Rcxm %122 %vdom %122 %0 value=rom 1130B-Series Probes User’s Guide...

  • Page 223: E2676B Single-Ended Browser Probe Head

    Csg2 %138 %139 value=cg1/2 Csg3 %132 %134 value=cg2/2 Csg1 %137 %136 value=cg1/2 Lsp1 %141 %130 value=l1*3/8 Lsp2 %138 %137 value=l1*3/4 Lsg1 %165 %164 value=l1/8 Lsg2 %136 %139 value=l1/4 Lsom %134 %0 value=lom Lsp4 %132 %131 value=l2 1130B-Series Probes User’s Guide...
  • Page 224 SPICE Models Lsp3 %132 %138 value=l1*3/8 Lsg3 %139 %134 value=l1/8 Rtrn %165 %0 .0001 Rdummy %164 %136 .0001 Rslossp %137 %161 value=rloss Rdsp %161 %141 value=rd Rstp %131 %vsop value=rt Rscxp %vsop %134 Rsom %134 %0 value=rom 1130B-Series Probes User’s Guide...

  • Page 225: E2679B Single-Ended Solder-In Probe Head

    Lsp3 %132 %138 value=l1*3/8 Lsg3 %139 %134 value=l1/8 Rtrn %165 %0 .0001 Rdummy %164 %136 .0001 Rslossp %137 %161 value=rloss Rdsp %161 %141 value=rd Rstp %131 %vsop value=rt Rscxp %vsop %134 Rsom %134 %0 value=rom 1130B-Series Probes User’s Guide...
  • Page 226 SPICE Models 1130B-Series Probes User’s Guide...

  • Page 227: N2851A Quicktip Head With N2849A Quicktip Tip

    4 0 1 2 1 e3 14 0 3 0 2 e4 15 0 14 0 -1 g1 1 2 6 0 1e6 g2 1 0 17 0 1e6 g3 2 0 17 0 1e6 .ends 1130B-Series Probes User’s Guide...
  • Page 228 SPICE Models 1130B-Series Probes User’s Guide...

  • Page 229: Replacement Parts

    Keysight InfiniiMax I Series Probes User’s Guide 11 Replacement Parts E2675B Differential Browser Probe Head E2677B Differential Solder-In Probe Head E2678A/B Differential Socketed Probe Head E2679B Single-Ended Solder-in Probe Head Other Accessories...

  • Page 230: E2675B Differential Browser Probe Head

    91Ω resistor for full bandwidth 150Ω resistor for medium bandwidth 91Ω resistor template 150Ω resistor template Table 34 Resistors Orderable Description Order From Vendor Part Number 91Ω resistor BREL International RMB16-910-JB 150Ω resistor BREL International RMB16A-151-JB 1130B-Series Probes User’s Guide...

  • Page 231: E2678A/B Differential Socketed Probe Head

    Orderable Description Order From Vendor Part Number 82Ω resistor Vishay MBA0204AC8209GC100 E2679B Single-Ended Solder-in Probe Head Table 37 Resistors Orderable Description Order From Vendor Part Number 0Ω resistor BREL International RMB16-000-JB 91Ω resistor BREL International RMB16-910-JB 1130B-Series Probes User’s Guide...

  • Page 232: Other Accessories

    SMA coaxial dc block Inmet #8037 SMA 6 dB coaxial attenuator Inmet #18AH-6 SMA 12 dB coaxial attenuator Inmet #18AH-12 SMA adjustable delay ATM Microwave #P1907 GPO-F to GPO-F adapter for N5380B Corning Gilbert #A1A1-0001-03 Rosenberger #19K 109-K00 E4 1130B-Series Probes User’s Guide...
  • Page 233 N2881A InfiniiMax DC Blocking Probe Head, 49, socketed differential probe, 51, Caps, E2678B Differential Socketed N5380B, Probe Head, 51, 71, solder-in differential, N5450B cable, E2679B Single-Ended solder-in differential probe, Solder-In Probe Head, 64, solder-in single-ended probe, 64, 1130B-Series Probes User’s Guide...
  • Page 234 Index soldering toolkit, specifications, 91, temperature, temperature chamber, temperature ranges, trim gauge template, velcro dots, WEEE compliance, weight, 1130B-Series Probes User’s Guide...

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