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Manual - TRS RenTelco

1. N5450A InfiniiMax extreme temperature cable extension y pt E3620A 50W Dual Output Power Supply Two 25V 1A E3620A 20 25V 0 1A Ee Agilent Oval Oulpot OC Power Supply VOLTAGE ADJUST VOLTS AMPS OVERLOAD vi v2 Vi ETE gt E e e METER OUTPUT 1 Powor v v2 Y U vz On Y n M ES T y M e 9 9 99 240 voc MAX TO L Agilent U1818A B Active Differential Probe 29 Handling Guide This probe has been designed to withstand a moderate amount of physical and electrical stress However with an active probe the technologies necessary to achieve high performance do not allow the probe to be unbreakable You should treat the probe with care It can be damaged if excessive force is applied to the probe tip This damage is considered to be abuse and will void the warranty when verified by Agilent Technologies service professionals This section will assist you in properly handling your Active Differential probes to maximize their lifetime of operation and maintain their high performance Connecting Disconnecting Probe Heads 30 When disconnecting a probe head from an amplifier pull the probe head connectors straight out of the socket as shown in Figure 3 1 When removing or disconnecting a probe head hold the amplifier by grasping the indentations located on the sides of the amplifier as shown in Figure 3 1 There are also indentations on many of the probe head sockets so you have a conveni
2. of U1818A B Pin Depth Specification U1818A B N type male connector pin depth 207 to 211 18 Agilent U1818A B Active Differential Probe Environmental Specifications Temperature Operating Storage Cycling Relative Humidity Operation Storage Shock End use handling shock Transportation shock Vibration Survival Altitude Operating Storage ESD immunity Air discharge Agilent U1818A B are designed to fully comply with Agilent Technologies s product operating environment specifications The following are the summarized environmental specifications for these product 0 C to 50 C 40 C to 70 C 55 C to 85 C 10 cycles 50 to 95 RH at 40 C 90 RH at 65 C Half sine wave form 2 3ms duration 60 in s 1 6ms delta V Trapezoidal wave form 18 22ms duration 337 in s 8 56ms delta V Random 5 500Hz 2 09grms 10min axis lt 4 572 meters 15 000 feet lt 15 000 meters 50 000 feet 8 kV from 150pF 33002 HBM CAUTION This device is sensitive to electrostatic discharge Do not subject the device to direct contact by the probe head wires Agilent U1818A B Active Differential Probe 19 20 Regulatory Markings CE ICES NMB 001 ISM GRP 1 CLASS A N10149 The CE mark shows that the product complies with all the relevant European Legal Directives ICES NMB 001 indicates that this ISM device complies with Canadian ICES 001 Cet appareill ISM est conforme a l
3. other hand position the end of the wire lead over the solder filled hole Touch the soldering iron to the side of the hole When the solder in the hole melts the wire lead will fall into the hole Remove soldering iron as soon as lead falls into the hole Again the thermal mass of the joint is very small so extra dwell time is not needed with the soldering iron to insure a good joint 7 Cut the wires that protrude on the bottom side of the probe head board even with the solder pad 8 Place the wires through the hole in the trim gauge with the probe head perpendicular to the trim gauge Refer to Figure 3 11 Trim Gauge Figure 3 11 Use trim gauge to gauge the wire Agilent U1818A B Active Differential Probe 41 9 Cutthe wires even with the trim gauge on the side opposite of the probe head Flush cutting wire cutters Figure 3 12 Cut the wires even with the trim gauge 10 When replacing wires on the N5382A Browser bend the wires down at about 30 degree angle 30 Figure 3 13 N5382A wire bend down at about 30 degree 42 Agilent U1818A B Active Differential Probe Tips for Using Browser Probe Heads e Spring steel wires will last longer if the span is set by grabbing the lead near the PC board edge and twisting instead of just pulling or pushing the wires apart or together Tips for Using Solder in Probe Heads e When soldering in leads to DUT always use plenty of flux The flux will insure a good strong solder j
4. points Also flux the tip of the lead on the ZIF tip at this time Figure 3 18 Fluxing of the target points 3 Clean the soldering iron tip and add a small amount of solder to the very tip This may take a few tries because the solder may tend to ball up and move away from the tip Figure 3 19 shows a small amount of solder on the tip of the soldering iron Figure 3 19 Small amount of solder added to ZIF Tip of soldering iron Agilent U1818A B Active Differential Probe 47 4 Installation of ZIF tip Connect the ZIF tip to the ZIF probe head as shown in Figure 3 14 and Figure 3 15 This allows the probe to be used as a handle for the ZIF tip to allow positioning in the DUT Position the lead wires on the target points and then briefly heat the solder joints There should be enough solder to form a good fillet and enough flux to make the joint shinny There should not be so much solder that the big solder ball is formed that could cause a solder bridge or overheat the leads on the ZIF tip This is shown in Figure 3 20 Figure 3 20 ZIF tip positioned and soldered in place 5 Remove ZIF probe head and leave ZIF tip behind for future connection It is best to use a non conductive pointed object such as a tooth pick or plastic tool Hold on the heat shrink part of the probe head to support the ZIF tip while releasing the latch Figure 3 21 shows a toothpick releasing the latch on the ZIF connector and Figure 3 22 shows the ZIF
5. 0kHz to 7 or 12GHz The new probes are designed to be directly compatible with Agilent s network spectrum and signal source analyzers The U1818A B probes provide high frequency probing solution for R amp D and quality assurance engineers performing RF Microwave and high speed digital design and validation in the wireline wireless communications and aerospace defence industries Figure 1 1 Agilent U1818A B Active Differential Probe Key Features of Agilent U1818A B Active Differential Probes e Broad bandwidth with flat frequency response 1 5dB which ensures excellent measurement accuracy and helps users achieve the best product apecifications Low noise floor less than 130dBm Hz at 10MHz to 12GHz which allows measurements to be made at a low signal amplitude Convenient biasing from Agilent s RF and microwave instruments probe power port or bench top power supply for user flexibility 8 Agilent U1818A B Active Differential Probe Options There are two DC power supply cable options available for Agilent U1818A B e Option 001 Power probe bias cable Option 002 Banana plug cable 1000 mm Figure 1 2 Power probe bias cable Black 12 6V Green ground N Red 15V y 1000 mm Figure 1 3 Banana plug cable There are five probe head options available for Agilent U1818A B Agilent U1818A B Active Differential Probe 9 E2695A differential SMA probe head for Inf
6. 3dB BW Normalized 3dB BW to 100kHz Supplementary U1818A B with U1818A B with U1818A B with U1818A B with Typical performance N5381A N5380A N5382A N5425A Maximum Input Power 16dBm 14dBm 16dBm 16dBm DC Biasing 15V at 142mA and 12 6V at 12mA Characteristic Maximum Input DC 10V Voltage Output Impedance 500hm Nominal Single Ended Mode 25k0hm N A 25k0hm 25k0hm Input Impedance 01MHz Differential Mode 50k0hm N A 50k0hm 50k0hm Input Impedance 01MHz Model Capacitance 0 09pF N A 0 09pF 0 13pF between tips Cm 14 Agilent U1818A B Active Differential Probe Model Capacitance between tip and Ground Cg Differential Mode Capacitance Cdiff Cm Cg 2 Single Ended Mode Capacitance Cse Cm Cg Nominal Probe Attenuation Output Return Loss Common Mode Rejection Noise Spectral Density Noise Figure Spurious Harmonic Distortion dBc P1dB Compression Agilent U1818A B Active Differential Probe 0 26pF 0 21pF 0 35pF 10dB lt 2GHz 35dB 2 12GHz lt 30dB lt 40dBc 10dBm input power for frequency lt 5GHz Input power gt 10dBm frequency lt GHz Refer to Figure 2 2 for more details N A 0 26pF N A 0 21pF N A 0 35pF 6 9dB 10dB 100kHz 7GHz lt 13dB 7GHz 12 GHz lt 8dB lt 2GHz 25dB lt 2GHz 35dB 2 12GHz lt 15dB 2 12GHz lt 30dB 100kHz 10MHz lt 120dBm Hz 10MHz 1GHz lt 130dBm Hz 1GHz 12GHz lt 145dBm Hz 100k
7. Agilent U1818A B Active Differential Probe Operating and Service Manual RES Agilent Technologies Notices O Agilent Technologies Inc 2009 No part of this manual may be reproduced in any form or by any means including elec tronic storage and retrieval or translation into a foreign language without prior agree ment and written consent from Agilent Technologies Inc as governed by United States and international copyright laws Manual Part Number U1818 90001 Edition Second Edition December 2009 Printed in Malaysia Agilent Technologies Inc Phase 3 Bayan Lepas Free Industrial Zone Bayan Lepas Penang 11900 Malaysia Certification Agilent Technologies certified that this product met its published specifications at the time of shipment from the factory Agi lent Technologies further certifies that its calibration measurements are traceable to the United States National Institute of Stan dards and Technology NIST formerly NBS to the extent allowed by the Institute s cali bration facility and to the calibration facili ties of other International Standards Organization members Warranty The material contained in this docu ment is provided as is and is sub ject to being changed without notice in future editions Further to the max imum extent permitted by applicable law Agilent disclaims all warranties either express or implied with regard to this manual and any information containe
8. Hz 10MHz lt 54dB 10MHz 1GHz lt 44dB 1GHz 12GHz lt 29dB lt 2MHz 75dBm Refers to Figure 2 1 for more details lt 35dBc 10dBm input power for frequency 2GHz 35dBc 4dBm input power for frequency 4GHz 35dBc 2dBm input power for frequency 5GHz Input power gt 10dBm frequency lt 2GHz Refer to Figure 2 3 for more details lt 40dBc 10dBm input power for frequency lt 5GHz Input power gt 10dBm frequency lt GHz Refer to Figure 2 2 for more details 0 40pf 0 33pF 0 53pF 10dB lt 2GHz 35dB 2 12GHz lt 30dB lt 40dBc 10dBm input power for frequency lt 5GHz Input power gt 10dBm frequency lt GHz Refer to Figure 2 2 for more details 15 Phase Noise 0 5dBm input power Phase Noise 10dBm input power Calculated Jitter Fc 2GHz 5dBm Input Power Calculated Jitter Fc Fc 100MHz 9 1MHz offset lt 135dBc Hz 5kHz 20MHz 31fs 5kHz 20MHz 1100fs Fc 2GHz 0 1MHz offset lt 140dBc Hz Fc 100MHz 9 1MHz offset 140dBc Hz 5kHz 20MHz 25fs 5kHz 20MHz 601fs Fc 100MHz 1MHz offset lt 135dBc Hz 5kHz 20MHz 31fs Fe 100MHz 1MHz offset lt 135dBc Hz 5kHz 20MHz 31fs 5kHz 20MHz 1100fs 5kHz 20MHz 1100fs 100MHz 10dBm Input Power Measured using Noise Marker function of Agilent PSA E4440A opt 110 with pre amp on T Noise Figure reading is derived from Noise Spectral Den
9. Kit is your solution These cables can used to physically separate the amplifier from the probe head to allow you to operate the prode head inside a temperature chamber while the probe amplifier remains outside the chamber Agilent U1818A B Active Differential Probe Securing Probe Heads and Amplifiers to Your DUTs When soldering a probe to a circuit you should first provide some strain relief by using low temperature hot glue use as little as possible or non conductive double sided tape Do not use super glue and do not get the low temperature hot glue on the actual probe head tip as this can damage the precision components of your probing system only use the low temperature hot glue on the probe head cables The provided velcro pads can be used to secure your probe amplifier casing to the board Incorrect securing method because glue is placed on the probe head tip Agilent U1818A B Active Differential Probe 37 Maintenance Service Instructions 38 Adjustment Repair If the probe requires cleaning disconnect it from the instrument and clean it with a soft cloth dampened with a mild soap and water solution Make sure the probe is completely dry before reconnecting it to the instrument The probe amplifiers do not have internal adjustments and should not be opened The U1818A B contain no user serviceable parts with the exception of the probe head If service or repair is required contact your nearest Agi
10. a norme NMB 001 du Canada This is the symbol of an Industrial Scientific and Medical Group 1 Class A product The C Tick mark is a registered trademark of the Spectrum Management Agency of Australia This signifies compliance with the Australian EMC Framework Regulations under the terms of the Radio communications Act of 1992 Agilent U1818A B Active Differential Probe Agilent U1818A B Active Differential Probe Operating and Service Manual 3 Operating and Service Operating Instructions 22 Other Probe Heads 23 Other Available Accessories 27 Handling Guide 30 Connecting Disconnecting Probe Heads on page 30 Handling the Probe Cable on page 32 Handling the Probe Amplifier on page 33 Handling the Differential Browsers with Ergonomic Handle on page 34 Handling SMA Probe Heads on page 35 Temperature Rating on page 36 Securing Probe Heads and Amplifiers to Your DUTs on page 37 Maintenance 38 Service Instructions 38 Adjustment on page 38 Repair on page 38 Replacing the Wires on N5381A and N5382A Probe Heads on page 38 Procedures and Soldering Tips for Using N5425A InfiniiMax ZIF Probe Heads on page 43 This chapter provides you the operating instructions service information and handling guide RE Agilent Technologies 21 Operating Instructions 22 To power up the probe user can either use power probe cable or banana plug cable When the probe is ON you will see the gre
11. and bottom See Figure 3 10 CAUTION When tightening the vise use light force to avoid damaging the solder in probe head Agilent U1818A B Active Differential Probe 39 AQ Solder in probe head vise TA Solder in probe head Tweezers Y Figure 3 10 Holding tip with vise Make sure soldering iron tip is free of excess solder Grab each wire lead with tweezers and pull very gently up Touch the soldering iron to solder joint just long enough for the wire to come free of the probe head tip Do not keep the soldering iron in contact with the tip any longer than necessary in order to limit burning and damage to the PC board This solder joint has very low thermal mass so it should not take very long for the joint to melt and release Prepare the mounting hole s for new wire s by insuring that the holes are filled with solder If they are not use the soldering iron and solder to fill the holes Again do not leave the iron in contact with the tip any longer than necessary When the hole s are filled with solder use the flux pencil to coat the solder joint area with flux Agilent U1818A B Active Differential Probe 4 Cut two wires to a length of about 12 7mm 0 5inches 5 Using tweezers put 90 degree bend at the end of the wire Leave enough wire at the bend such that it will protrude through the board when the wire is installed 6 Holding the wire in one hand and the soldering iron in the
12. could result in damage to the product or loss of important data Do not proceed beyond a CAUTION notice until the indicated conditions are fully understood and met A WARNING notice denotes a hazard It calls attention to an operating procedure practice or the like that if not correctly per formed or adhered to could result in personal injury or death Do not proceed beyond a WARNING notice until the indicated condi tions are fully understood and met Agilent U1818A B Active Differential Probe WEEE Compliance This product complies with the WEEE Directive 2002 96 EC marking requirements The affixed label indicates that you must not discard this electrical electronic product in domestic household waste Product Category With reference to the equipment types in the WEEE Directive Annex I this product is classed as a a Monitoring and Control Instrumentation product Do not dispose in domestic household waste To return unwanted products contact your local Agilent office or see www agilent com for more information Agilent U1818A B Active Differential Probe 3 Contacting Agilent For more information please contact your nearest Agilent office Americas Canada 877 894 4414 Latin America 305 269 7500 United States 800 829 4444 Asia Pacific Australia 1 800 629 485 China 800 810 0189 Hong Kong 800 938 693 India 1 800 112 929 Japan 81 426 56 7832 Korea 080 769 0800 Malaysia 1 800 888 848 S
13. d herein including but not limited to the implied warranties of merchantability and fitness for a par ticular purpose Agilent shall not be liable for errors or for incidental or consequential damages in connec tion with the furnishing use or per formance of this document or of any information contained herein Should Agilent and the user have a separate written agreement with warranty terms covering the material in this document that conflict with these terms the warranty terms in the sep arate agreement shall control Technology Licenses The hardware and or software described in this document are furnished under a license and may be used or copied only in accor dance with the terms of such license Restricted Rights Legend U S Government Restricted Rights Soft ware and technical data rights granted to the federal government include only those rights customarily provided to end user cus tomers Agilent provides this customary commercial license in Software and techni cal data pursuant to FAR 12 211 Technical Data and 12 212 Computer Software and for the Department of Defense DFARS 252 227 7015 Technical Data Commercial Items and DFARS 227 7202 3 Rights in Commercial Computer Software or Com puter Software Documentation Safety Notices CAUTION A CAUTION notice denotes a haz ard It calls attention to an operat ing procedure practice or the like that if not correctly performed or adhered to
14. e soldering iron tip to the joint The thermal mass of this joint is very small so you don t need to dwell on the joint for very long The flux that was added to the joint should produce a good clean solder joint If you do not get a good shinny strong solder joint then there was either not enough flux or the joint was heated too long and the flux boiled off Repeat step 4 for the other lead of the ZIF tip There is a possibility that if a lead of the ZIF tip is inserted into a large ball of solder that is heated excessively with a soldering iron the solder joint holding the lead onto the ZIF tip PC board could flow and the lead would come off destroying the ZIF tip Only the first third of the lead or so needs to be soldered to the target point Agilent U1818A B Active Differential Probe 45 Illustrated Procedure of Recommended Soldering Techniques An illustrated example of the installation of a ZIF tip and connection to a ZIF probe head is shown below Figure 3 16 shows a IC package which we will attach a ZIF tip to the first two package leads The target could also be via pads or signal traces Figure 3 16 IC package for example ZIF tip installation 1 Add some solder to the target points in the DUT Figure 3 17 shows extra solder added to the pads for the first two pins on an IC package Figure 3 17 Solder added to target points 46 Agilent U1818A B Active Differential Probe 2 Use flux pen to add flux to the target
15. ed to be careful not to let a chair or other object crash into the face of the instrument because it will hit the probe cable where it exists the probe amplifier and bend it well beyond its limit When storing the probe it is best to coil the cable in a large radius and avoid a net twist in the cable during the process This can be done in a similar manner to how garden hoses or extension cords are typically coiled You can start by wrapping the cable around your thumb Figure 3 4 first picture Then continue to circle your thumb but provide a slight twist with each rotation This will allow the cable rotations to lie flat against each other and will eliminate the net twisting of the cable in the end Note that the radius of the coil must be fairly large so it does not induce kinking or bending Agilent U1818A B Active Differential Probe ad Figure 3 4 The recommended way to coil and store your probe Handling the Probe Amplifier The probe amplifier contains a delicate circuit board You therefore need to treat it carefully and take standard precautions for example not dropping it repeatedly or from large heights not getting it wet not smashing it with heavy objects etc CAUTION These probes are sensitive ESD devices so standard precautions need to be used to not ruin the probe from the build up of static charges Agilent U1818A B Active Differential Probe 33 34 Handling the Differential Browsers with Er
16. en LED will lights up to indicate the probe is ready to be used Power probe cable Connect the power probe bias cable to the probe power port of Spectrum Analyzer Signal Source Analyzer or Network Analyzer Banana plug cable Connect the banana plug cable to power supply with below configuration e Red 15V e Black gt 12 6V e Green gt Ground Agilent U1818A B Active Differential Probe Other Probe Heads Besides stadard probe head options below are some other probe heads that can be used with U1818A B with limitations N5451A Differential long wire ZIF tip mmm LAE NE NE ME LA Agilent U1818A B Active Differential Probe 23 24 E2678A Single ended differential socketed probe head De mmm 1313331511311 1191191199191 Agilent U1818A B Active Differential Probe N2679A Single ended solder probe head prat HIHIH ni E jii cid Y ULE PTT TTT HT Agilent U1818A B Active Differential Probe 25 N2669A Differential connectivity kit N2668A Single ended connectivity kit 26 Agilent U1818A B Active Differential Probe Other Available Accessories There are more accessories that you can get from Agilent to work with U1818A B E2880A In line attenuator kit N2881A DC blocking capacitor Agilent U1818A B Active Differential Probe 27 28 N2784A 1 arm probe positioner Agilent U1818A B Active Differential Probe N2787A 3D probe positioner
17. ent place to grasp there as well When connecting a probe head to an amplifier push straight in also Figure 3 1 Pull the probe head straight out to disconnect it from the am plifier Agilent U1818A B Active Differential Probe Never bend the probe head in order to pop it loose from the amplifier Also do not wiggle the probe head up and down or twist it to remove the connectors from the sockets This can damage the pins in the amplifier or the probe head itself Figure 3 2 is an example of an improper way to disconnect the probe head Figure 3 2 An improper way to disconnect a probe head from an amplifi er To see if the pins in the probe amplifier are bent visually inspect them by looking in the sockets on the amplifier Notice in Figure 3 3 that the pins are straight as they should be Figure 3 3 Straight pins in an amplifier Agilent U1818A B Active Differential Probe 31 If you connect and disconnect probe heads using the appropriate method these pins should not bend Always remember to apply enough force to pull the probe head straight out or push it straight in Do not wiggle twist or bend it in any Way Handling the Probe Cable In general you need to be careful not to kink the cable twist it or bend it too much For example slamming a drawer or dropping a heavy item on a cable can kink it and significantly degrade the probe s performance Also when a probe is attached to instrument you ne
18. gonomic Handle Because of their small size it can be difficult to hold the differential browsers for extended periods of time The ergonomic handle can be used to more comfortably hold the browser Figure 3 5 shows how to mount the browser in the ergonomic handle and Figure 3 6 shows how to remove the browser from the ergonomic handle iN de Figure 3 5 Steps to mount the browser in the ergonomic handle Agilent U1818A B Active Differential Probe 1 B Figure 3 6 Steps to remove the browser from the ergonomic handle Handling SMA Probe Heads The U1818A B probe amplifier can become damaged when used with the N5380A or E2695A SMA probe heads Use the Agilent N5380 64701 SMA Head Support to prevent damage Make sure to plug the probe amplifier into the SMA head before installing the SMA Head Support and do not attempt to plug or unplug the SMA head from the probe amplifier while it is in the SMA Head Support housing Figure 3 7 shows how to attach the SMA Head Support using two provided screws Agilent U1818A B Active Differential Probe 35 36 Figure 3 7 Attaching the SMA Head Support Temperature Rating U1818A B probe amplifier have a specified operating temperature range of 0 C to 50 C However the probe heads can be operated over a much larger range of temperatures If you need to make measurements at temperatures outside the range of the amplifier the N5450A Extreme Temperatures Cable Extension
19. ingapore 1 800 375 8100 Taiwan 0800 047 866 Thailand 1 800 226 008 Europe Austria 0820 87 44 11 Belgium 32 0 2 404 93 40 Denmark 4570131515 Finland 358 0 10 855 2100 France 0825 010 700 Germany 01805 24 6333 Ireland 1890 924 204 Italy 39 02 92 60 8484 Netherlands 31 0 20 547 2111 Spain 34 91 631 3300 Sweden 0200 88 22 55 Switzerland French 41 21 8113811 Opt 2 Switzerland German 0800 80 53 53 Opt 1 United Kingdom 44 0 118 9276201 Other European Countries www agilent com find contactus Or go to www agilent com find assist for more information Agilent U1818A B Active Differential Probe Contents 1 Introduction 7 Product Overview 8 2 Specification 13 Product Specifications 14 Physical Specifications 18 Environmental Specifications 19 3 Operating and Service 21 Operating Instructions 22 Other Available Accessories 27 Handling Guide 30 Maintenance 38 Service Instructions 38 Agilent U1818A B Active Differential Probe Agilent U1818A B Active Differential Probe Agilent U1818A B Active Differential Probe Operating and Service Manual 1 Introduction Product Overview 8 Key Features of Agilent U1818A B Active Differential Probes on page 8 Options on page 9 This chapter provides you the overview of Agilent U1818A B Active Differential Probe RE Agilent Technologies 7 Product Overview The Agilent U1818A B active differential probes provides high differential input impedance from 10
20. iniiMax probe ji N5381A 12GHz InfiniiMax differential solder in probe head and accessories 10 Agilent U1818A B Active Differential Probe N5382A InfiniiMax Il 12GHz differential browser N5425A 12GHz InfiniiMax ZIF solder in probe head ETT TT TIA AGILENT E RE ORDER NS426A Dan A E ie R esT K N5426A 12GHz InfiniiMax ZIF Tip kit of 10 UELEZE RGILENT amp RE ORDER 54268 A A MZ a M F Agilent U1818A B Active Differential Probe 11 12 Agilent U1818A B Active Differential Probe Agilent U1818A B Active Differential Probe Operating and Service Manual 2 Specification Product Specifications 14 Physical Specifications 18 Environmental Specifications 19 This chapter provides an overview specifications of Agilent U1818A B Active Differential Probe EE Agilent Technologies 13 Product Specifications Specifications refer to the performance standards or limits against which the active differential probe is tested Typical characteristics are included for additional information only and they are not specifications These denoted as typical nominal or approximate and are printed in italic U1818A B with U1818A B with U1818A B with U1818A B with N5381A N5380A Typical N5382A Typical N5425A Typical Bandwidth 100kHz 7 or 12GHz 100kHz 7 or 12GHz 100kHz 7 or 12GHz 100kHz 7 or 12GHz Frequency Response 7 or 12GHz 7 or 12GHz 7 or 12GHz 7 or 12GHz
21. lent Technologies Service Center Refer to Contacting Agilent on page 4 Replacing the Wires on N5381A and N5382A Probe Heads When the wire leads of the N5381A and N5382A probe heads become damaged or break off due to use the wires can be replaced Use the appropriate wire for each probe head as follows e The N5381A uses the 0 005 inch tin plated nickel wire 01169 21306 or 0 007 inch tin plated nickel wire 01169 81301 The N5382A uses the 0 005 inch tin plated steel wire 01169 21304 Agilent U1818A B Active Differential Probe Recommended Equipment Below lists the equipment required to replace the wires Equipment other than the recommended can be used provided minimum specifications are satisfied Vise or clamp for holding tip e Metcal STTC 022 600 C or STTC 122 700 C tip soldering iron or equivalent The 600 C tip will help limit burning of the FR4 tip PC board s 0 381mm 0 015in diameter RMA flux standard tin lead solder wire Fine stainless steel tweezers Rosin flux pencil RMA type Kester 186 or equivalent e Flush cutting wire cutters e Magnifier or low power microscope e Agilent supplied trim gauge 01169 23801 e Ruler Recommended Procedure 1 Use the vise or clamp to position the tip an inch or so off the work surface for easy access If using a vise grip the tip on the sides with light force If using a tweezers clamp grip the tip either on the sides or at the top
22. oint without having to use an excessive amount of solder e Strain relieves the micro coax leading away from the solder in tips using hook and loop fasteners or adhesive tape to protect delicate connections Note that for the differential solder in probe head the and connection can be determined when the probe head is plugged into the probe amplifier therefore it does not matter which way the tip is soldered Procedures and Soldering Tips for Using N5425A InfiniiMax ZIF Probe Heads The InfiniiMax ZIF Zero Insertion Force Probe Heads system is a way to use a less expensive connection accessory ZIF tip that can be installed at many locations on a device under test to connect to a probe head 5426A that transports the signal to the probe amplifier The advantages of this system are that the ZIF tip is very small and connects to the probe head using a zero insertion force feature allows connection without compressing the delicate wires which cannot support this compression A close up of the ZIF tip and the ZIF probe head before the probe head is inserted into the ZIF tip is shown in Figure 3 14 Note that lever on the ZIF tip is shown in the open position pointed up which allows the insertion of the probe head contacts into the ZIF tip with zero insertion force Agilent U1818A B Active Differential Probe 43 44 Figure 3 15 ZIF tip closed position with ZIF probe head inserted A close up of the ZIF p
23. robe head inserted into the ZIF tip is shown in Figure 3 15 Note that now the lever on the tip is in the closed position down rotated 90 degree to the left which closes the contacts of the ZIF connector Agilent U1818A B Active Differential Probe Soldering the tip into a DUT is straighforward but some of the traditional soldering techniques that are typically used on larger components will not work well here Holding the leads on the ZIF tip in place while applying the soldering iron and adding solder requires the use of three hands The following is an overview of the recommended soldering techniques 1 Add some solder to the DUT connection points There should be enough solder to provide a good fillet around the ZIF tip leads but not so much as to create a big solder ball A fine MetCal or equivalent soldering tip should be used along with some 11 or 15mil solder Using a rosin flux pen coat the solder points with flux The flux core solder does not provide enough flux for this small scale soldering Also put flux on the tips of the leads of the ZIF tip Clean the soldering tip well then add a little bit of solder to the tip It may take several tries to get just a little bit of solder right at or near the tip of the soldering iron The solder on the tip keeps the soldering iron tip from pulling solder on the DUT connection points Position a lead of the ZIF tip on top of one of the target points then briefly touch th
24. sity No spurious signal detected gt 2MHz The signal source used is Agilent PSG Ttf The jitter value depends on the Agilent PSG and the U1818A B probe At close in offset frequency the residual noise of the probe is better The Agilent PSG calculated jitter is 23fs Spurious 60 gt 0 0 5 1 70 80 90 100 e dBm TAGE ARTA M MINI IUI NNA NA 1 20 T Frequency MHz 110 eo 130 140 Spurious Figure 2 1 Typical spurious plot 16 Agilent U1818A B Active Differential Probe Output Power dBm U1818A B N5381 A N5382A N5425A P1dB Typical 5 100 A lt 2GHz 4GHz 7GHz GREY 20 PELLI 12GHz 127 Input Power dBm Figure 2 2 Typical P1dB plot with Nb381A N5382A and N5425A Output Power dBm U1818A B N5380A P1dB Typical 2GHz 15 Input Power dBm Figure2 3 Typical P1dB plot with Nb380A Agilent U1818A B Active Differential Probe 17 Physical Specifications U1818A B Mechanical Dimensions Figure 2 4 Weight 0 170kg 0 375Ib Shipping Weight 1 135kg 2 5021b Output Connector N type male Dimension in millimeters Inches 5 284 13850 _ 54 528 _ 260 _ 232 TTE HHIHH Hinin i a A Figure 2 4 Mechanical Dimension
25. tip left behind in the DUT with the latch open ready for future connections Agilent U1818A B Active Differential Probe ho 3 Figure 3 22 ZIF Tip left behind in DUT with ZIF latch open Agilent U1818A B Active Differential Probe 49 6 Connect ZIF probe head to ZIF tip desired for measurement When you need to make a measurement at a point where you ve previously installed a ZIF tip insure the latch on the ZIF tip is open insert the contacts on the probe head into the ZIF socket and then close the ZIF latch with a non conductive tool Depending on the positioning of the ZIF tip you may need to support the body of the ZIF tip while closing the latch This can be done by tweezers or other suitable tool by grabbing the PC board at the tip while the latch is being closed If the circuit is live and there is concern about shorting anything out use plastic or non conductive tweezers See Figure 3 23 Figure 3 23 Use non conductive tool to close the latch Agilent U1818A B Active Differential Probe

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