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Agilent Technologies N4963A User Manual

Clock synthesizer 13.5 ghz
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Agilent N4963A Clock Synthesizer User Guide
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The N4963A Clock Synthesizer 13.5 GHz generates six pairs of differential square-wave clock
outputs from 500 MHz to 13.5 GHz. The instrument features programmable output amplitude, DC
offset, phase offset, sub-rate trigger, and jitter injection.
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  • Page 1 Agilent N4963A Clock Synthesizer User Guide http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html The N4963A Clock Synthesizer 13.5 GHz generates six pairs of differential square-wave clock outputs from 500 MHz to 13.5 GHz. The instrument features programmable output amplitude, DC offset, phase offset, sub-rate trigger, and jitter injection.
  • Page 2 Agilent N4963A Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 3: Limitation Of Warranty

    Use, duplication or disclosure of maintenance. No other warranty is expressed Software is subject to Agilent Technologies’ or implied. Agilent Technologies specifically standard commercial license terms, and non- disclaims the implied warranties of DOD Departments and Agencies of the U.S.

  • Page 4: Safety Summary

    Intentional interruption is removed from the electrical supply. prohibited. Agilent Technologies Inc. assumes no Alternately, an externally installed switch liability for the customer's failure to or circuit breaker which is readily comply with these requirements.
  • Page 5 (ESD), hazardous or toxic substance elements are therefore, avoid applying static discharges to expected to leak or deteriorate during normal the panel input connectors. use. Forty years is the expected useful life of the product. This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 6 Product category: With reference to the equipment types in the WEEE Directive Annexure 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 Agilent office, or see for more information. www.agilent.com/environment/product/ This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 7 This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 8: Table Of Contents

    Internal clock system ..............12 1.1.4 Output Amplitude ................12 1.1.5 Display ....................12 1.1.6 Interface ................... 12 Getting Started with N4963A ..............12 1.2.1 Unpacking and Installation ............12 1.2.2 Important Notes ................13 1.2.3 Performance Recommendations ..........13 Connect the Hardware ..................
  • Page 9 External Jitter Injection ..............52 Simple Functional Examples ................ 54 4.6.1 Generic Test Example ..............54 4.6.3 Example Using the N4963A to Control the N4962A ....56 Remote GPIB Interface ..................57 GPIB Capabilities ................... 58 GPIB Command Syntax ................58 5.2.1 GPIB Command Syntax ..............
  • Page 10 5.7.1 Root Subsystem ................63 5.7.2 :SOURce Subsystem ............... 67 5.7.3 JITTer Subsystem(N4963A 101) ..........68 IEEE Common Capabilities ................71 Returning the N4963A Clock Synthesizer to Agilent Technologies ....77 Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 11 Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 12: Getting Started

    Getting Started 1 Getting Started 1.1 General The N4963A Clock Synthesizer 13.5 GHz generates six pairs of differential square-wave clock outputs from 500 MHz to 13.5 GHz. The instrument features programmable output amplitude, DC offset, phase offset, sub-rate trigger, and jitter injection.

  • Page 13: Internal Clock System

    Compatible with N4980A multi-instrument software user interface • 1.2 Getting Started with N4963A 1.2.1 Unpacking and Installation The N4963A clock synthesizer 13.5 GHz is shipped with all the accessories required for the self-test mode and verification. The contents includes: N4963A clock Synthesizer •...

  • Page 14: Important Notes

    This instrument has auto ranging line voltage input. Be sure the supply voltage is within the specified range. In an ESD-safe environment, carefully remove the N4963A. Install on a flat surface with unobstructed air flow to the back panel. Plug the AC power cord into the power converter module and a wall socket, then plug the converter module into the N4963A.

  • Page 15: Setting Frequency And Output Levels

    1.4 Setting Frequency and Output Levels Turn on the power switch from the back panel. • The N4963A synthesizer starts with the FREQ option selected by default • and "005.000G" showing in the display. Set the desired frequency using the Unit, Digit and Value buttons.

  • Page 16: Enabling Jitter Injection

    "Ext Hi" mode should be used for modulation frequencies above 2.4 MHz. The amount of jitter injected is directly related to the amplitude of the applied signal, to a maximum extent of 0.6 UI. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 17 Getting Started Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 18: N4963A System Overview

    N4963A System Overview 2 N4963A System Overview 2.1 System Overview The Agilent Technologies N4963A clock synthesizer 13.5 GHz generates six pairs of differential square-wave clock outputs from 500 MHz to 13.5 GHz. The instrument features programmable output amplitude, DC offset, phase offset, sub-rate trigger, and jitter injection.
  • Page 19 N4963A System Overview Figure 1. N4963A block diagram Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 20: Front Panel Quick Reference

    Off- Internal ref source. Select (Jitter): Off- All jitter off Requires N4963A-101. Toggles between injecting no jitter, injecting jitter from the internal jitter generator, Jitter Off Int- Internal jitter and injecting jitter from the externally-applied source.

  • Page 21: Rear Panel Quick Reference

    The default power-on settings are listed in Error! Reference source not found.. The front-panel controls are further discussed in Section 4.2. 2.3 Rear Panel Quick Reference Figure 3. N4963A rear panel Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 22: Connectors

    SN (white area) – N4963A serial number 2.3.4 Controls GPIB (switch panel) – N4963A GPIB address (down is ‘0’, up is ‘1’, LSB is on the left) (Default GPIB address as shipped from the factory is 16) Power connector – connects with AC/DC adapter. Use only the supplied AC/DC adapter.
  • Page 23 N4963A System Overview Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 24: System Details And Performance Specifications

    50 Ω-terminated connector. 3.1 General Table 2. General and mechanical parameters of N4963A Operating Temperature +10°C to +40°C Storage Temperature −40°C to +70°C...

  • Page 25: Safety And Regulatory

    Failure, to ensure adequate earth grounding by not using the correct components may cause product damage, and serious injury. 3.2.1 Declaration of Conformity A EU declaration of conformity is available at http://regulations.corporate.agilent.com/doc/search.htm Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 26: Internal Clock

    DC offset. CH3A and CH3B share the same programmable output amplitude. See Table 4. If the synthesizer includes Option 101 jitter injection, N4963A-101, the jittered high-frequency signal will be available from the front-panel CH2 differential outputs and the rear-panel CH4A and CH4B differential outputs. CH2 has programmable output amplitude and programmable DC offset.
  • Page 27 System Details and Performance Specifications Table 4. Parameters for N4963A clock outputs All clock outputs Frequency of operation 0.5 to 13.5 GHz Frequency resolution 1 kHz when GPIB controlled 1 kHz at frequencies < 1GHz when front panel controlled 1 MHz at frequencies ≥ 1 GHz when front panel controlled Frequency accuracy ±5 ppm maximum...

  • Page 28: Jitter Injection

    When manufactured with N4963A-101, the front panel CH2 and rear panel CH4A and CH4B are optionally jittered with either an internal or external jitter modulation signal. The modulation signal is frequency modulated onto the high-frequency clock.
  • Page 29 However, different generation methods allow different amounts of jitter to be injected. Figure 4 and Table 6 indicate the maximum amount of jitter UI as a function of jitter modulation frequency. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 30: External Jitter

    System Details and Performance Specifications Table 6. Parameters for N4963A internal jitter injection Jitter injection (Option 101) Jitter injection source Internal or External Jittered outputs Channel 2 (front panel) and Channels 4A and 4B (rear panel) Jitter injection frequency range...
  • Page 31 Figure 5 indicates the maximum UI deviation as a function of jitter frequency. Figure 5. Maximum external jitter generation vs. frequency Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 32 System Details and Performance Specifications Table 7. Parameters for N4963A external jitter injection Modulation Source External Signal Generator Maximum input 1 V pp Input Female-SMA, Single-Ended, DC-Coupled, 50 Ω Deviation scaling 1, 2, 4, 8, 16 and 32 factors Clock Synthesizer 13.5 GHz User Guide...
  • Page 33 System Details and Performance Specifications Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 34: Operation

    Operation 4 Operation The following section provides more detailed information regarding the use of the N4963A clock synthesizer 13.5 GHz. Please refer to the front and rear panel quick reference, in Section 2, for abbreviated information. 4.1 General Information The N4963A clock synthesizer 13.5 GHz should be used in accordance with the following: Read and follow operating instructions;...

  • Page 35: Performance Recommendations

    50 Ω termination. 4.1.3 Connector Care The N4963A clock synthesizer 13.5 GHz features high-quality SMA connectors for the front and rear panel Input and Output, RF connections. Connector damage will degrade signal fidelity.

  • Page 36: Front Panel Interface

    7. Inspect connector for damage. 4.2 Front Panel Interface Figure 6. N4963A front panel The N4963A front panel indicates the system configuration and can be used for local operation of the instrument. The front panel contains four groupings of buttons and lights: 1.

  • Page 37: Display Panel

    When one of the configuration Adjust buttons are selected, the display will show the corresponding configuration setting. 4.2.2 Local, Clock, Reference, and Jitter Select Controls Figure 8. N4963A front panel – local, receiver, and data path controls Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 38 Operation Table 9. N4963A front panel – local, receiver, and data path controls Text Type Description Default Local button Light indicates local control: & light ON when front-panel control is • enabled; OFF when remote GPIB • interface is in use.

  • Page 39: Display Selection Controls

    Operation 4.2.3 Display Selection Controls Figure 9. N4963A front panel – display selection controls Table 10. N4963A front panel – display selection controls Text Type Description Default Display UP and DOWN Buttons select the measurement or Freq (GHz) buttons configuration option to display on the ->...

  • Page 40: Configuration Adjustment Controls

    Operation 4.2.4 Configuration Adjustment Controls Figure 10. N4963A front panel – configuration adjustment controls Table 11. N4963A front panel – configuration adjustment controls Indicator LED 8-Digit Display Function Units Default FREQ xxx.xxxG Displays the clock frequency. G-GHz 005.000G Unit – selects the frequency band M-MHz Digit –...
  • Page 41 Displays the original instrument model number. MORE SN #xxxx Unit serial number (only the last four digits of the serial number are shown on the front panel display) MORE Rev xxxx Firmware revision number Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 42: Rear Panel Interface

    The two differential reference (un-jittered) outputs CH3A and CH3B (both SMA) are labeled Ref. The two differential jittered outputs CH4A and CH4B (both SMA) are labeled Jit. If the synthesizer was built without N4963A-101, the panel marking will be unchanged, and the differential outputs will generate reference clocks.

  • Page 43: Power-On State

    This is detailed in Section 5. 4.4 Power-on State The power-on state of the N4963A is set after turning the rear power switch on. The unit comes on in local mode, and is controlled by the front panel. The internal TXCO is active after turn-on and generates a 10.0 MHz reference signal...

  • Page 44: System Verification

    GPIB. 4.5.1 Frequency and Output Amplitude The easiest test to start with is to verify that the N4963A is generating the proper frequency and that the rear panel outputs have amplitude control. A simple experimental setup to test these functions is shown in Figure 12.
  • Page 45 Operation The N4963A may now be turned on. The unit will come up in local mode utilizing the internal 10 MHz reference. The display indicator is by default showing frequency and the default frequency is 5 GHz. No output is available at any of the output ports or the trigger port until the clock is turned on.
  • Page 46 In this example channels 3B and 4B were sent to the DCA, and CH3B complement as sent to the spectrum analyzer. However the experiment will work just as well with any permutation of the channels including the front panel channels. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 47: Dc Offset And Phase Offset

    The user should verify that the front panel amplitude adjustment control is working properly by following steps similar to those performed on the rear panel channels in the previous section. Note that the front panel output has considerably more range. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 48 The maximum amount of phase adjustment is 358 degrees in 2 degree increments. The user may scroll through from −180 to +178 degrees or back and both the delay and display will roll over properly. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 49: Internal Jitter Injection

    FPGA look up table. The source for the high frequency mode is a DDS. In the low frequency mode multiple UI deviation is possible. In the high frequency mode the maximum deviation is 0.6 UI. For internal jitter the N4963A switches modes automatically depending on the user programmed jitter modulation frequency.
  • Page 50 Operation The experimental setup is shown in Figure 14. Here the N4963A trigger output is connected to the scope trigger input. The channel 1 output is connected to the scope input and is used as a comparison reference. The jittered, complementary, Channel 2 output is connected to an external, programmable divider.
  • Page 51 Operation After setting up the experimental configuration of Figure 14, power-on the N4963A and press the Clock-On button. Use the Select button to select internal jitter, Int Jitter. Either bypass or set the divide modulus to 1 on the external divider.
  • Page 52 Figure 15 illustrates a typical output, as measured on an Agilent 86100 DCA. Shown is the 2 GHz output from the front-panel reference (blue) and jittered (red) clock outputs. The jitter is applied internally at 100 kHz, 0.3 UI is injected in this case. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 53: External Jitter Injection

    The N4963A has two modes of operation when the jitter source is external. Like the case for internal modulation, there are low and high frequency modes.
  • Page 54 The maximum allowable signal level on the external jitter input to the N4963A is 1 V pp. Set the source frequency to some desired jitter frequency. Start with 100 kHz to make a comparison with the results from the previous section.

  • Page 55: Simple Functional Examples

    N Figure 16. External jitter injection verification setup Simple Functional Examples In this section a couple of examples that utilize the N4963A as a clock source, as part of a simple measurement experiment, are given. 4.6.1 Generic Test Example Generic experiment setup and description.
  • Page 56 Operation Receive Data Source PRBS Retimer Transmission Channel ∆φ φ(t) Agilent Reference Clock Jittered Clock Trig-O Figure 17. N4963A generic test example experimental setup Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 57: Example Using The N4963A To Control The N4962A

    Experiment setup and description of N4963A controlling the BERT. Agilent Jittered Clock Reference Clock φ(t) ∆φ Tx Clock N4962A Rx Clock Agilent Received Transmitted Data Data Figure 18. Experimental setup for N4962A clocked by the N4963A Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 58: Remote Gpib Interface

    Remote GPIB Interface 5 Remote GPIB Interface The N4963A can be controlled and queried with the rear-panel GPIB interface. The GPIB interface complies with IEEE standard 488.2-1992. To learn more about the GPIB interface, consult the following books from the IEEE: The International Institute of Electrical and Electronic Engineers.

  • Page 59: Gpib Capabilities

    No controller capability Tristate outputs (except the handshake line) 5.2 GPIB Command Syntax The N4963A can be controlled through the GPIB interface using commands and queries. The commands and queries are documented in the Backus-Naur Form notation, detailed in Table 14.

  • Page 60: Gpib Command Syntax

    The commands can be shortened to the minimum length illustrated by the uppercase letters in the documentation. The command • o :JITTer:FREQuency? Can be written in lowercase • o :jitter:frequency? And it can be shortened • o :jitt:freq? Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 61: Ieee Common Commands

    5.3 IEEE Common Commands The IEEE 488.2 standard has a list of reserved commands that must be implemented by all instruments using the standard. The N4963A implements all of the required commands, listed in Table 15. Table 15. N4963A IEEE common commands...

  • Page 62: Scpi Mandated Commands

    Returns SCPI protocol version number (“1999.0”) 5.5 N4963A Device Commands The N4963A device commands are summarized in Table 17. The following descriptions and examples assume the user is programming with Agilent BASIC, a simple interpretative language that is convenient for instrument programming.

  • Page 63: Scpi Protocol Description

    :JITTer:AMPLitude? 5.6 SCPI Protocol Description The N4963A supports a simple SCPI syntax. The SCPI commands are meant to be compatible with the Agilent ESG when possible. SCPI has an associated hierarchy with it. The top level is referred as the Root mode. SCPI remembers the current hierarchy so you don’t need to repeat it for subsequent commands.

  • Page 64: Command Summary

    Numeric - the use of italics indicates that the term numeric is a placeholder in the command and is described elsewhere in the text for the command. 5.7 Command Summary 5.7.1 Root Subsystem All of these commands can be called from the root level of the N4963A. Command :OUTPut Description Turn the clock output ON or OFF.
  • Page 65 The unit is Volts peak-to-peak. Optional <units> are V and mV. The N4963A features four channels, 1, 2, 3, and 4. Channels 1 and 2 are the reference and jittered output channels on the front panel. Channels 3 and 4 each refer to two differential outputs on the back panel.
  • Page 66 Set the specified channel DC offset to the given value. The unit is DC Volts. The units which are supported are V, mV, or uV. The reference and jittered outputs, channel 1 and channel 2, respectively, of the N4963A have DC offset control. Example All of the following examples are valid: :OFFSet 1 500mV;...
  • Page 67 Set the phase offset of channel 1, relative to the other three channels, to a value in degrees. Command :PHASe? Description Query the phase offset of channel 1. Returns a value in degrees. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 68: Source Subsystem

    Will find out if the output is on or off. :SOURce:OUTPut OFF Will turn the clock output off. :SOURce:AMPLitude? 1 Will return the amplitude of channel 1. :SOURCE:FREQuency? Will return the frequency. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 69: Jitter Subsystem(N4963A 101)

    :JITTer:SOURce { OFF | INTernal | EXTernal } Description Set the jitter of the N4963A. It is used to either turn the jitter off; or to set the jitter source to the internal source or to the external signal provided to the Jitter-In rear panel connector.
  • Page 70 Remote GPIB Interface Command :JITTer:BAND? Description Query the jitter band state of the N4963A when using an external jitter input. Returns values LOW or HIGH. Command :JITTer:FREQuency value <unit> Description Set the jitter frequency of the internal periodic jitter generator to a given value.
  • Page 71 The maximum input jitter versus jitter modulation frequency is given in Table 6. Example :JITTer:AMPLitude 1.2 :JITTer:AMPLitude 12e-1; Command :JITTer:AMPLitude? Description Query the jitter amplitude of the N4963A. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 72: Ieee Common Capabilities

    Returns the manufacturers name, model number, serial number and firmware revision as a string. The serial number format is country (2 characters), year (number of years after 1960), week number (2 digits), and sequence number (4 digits). “AGILENT TECHNOLOGIES, N4963A, US52491234, Rev0040” Command *LRN? Description Learn Query –...
  • Page 73 Option Result None N4963A Jitter Injection N4963A, OPT101 Command *PSC numeric Description Sets the value of the Power On Status Clear Flag. Controls the automatic clearing of the SRQ enable register see IEEE 488.2 Section 10.25. Not implemented.
  • Page 74 Command *SRE numeric Description Service Request Enable – sets the status byte mask. numeric = QUES Status Summary 16 Message Available 32 Event Status Summary 64 Request Service 128 OPER status summary Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 75 Command *STB? Description Status Byte Query – Returns the value of the status byte in numeric form. Command *TRG Description Trigger – Not implemented. Command *TRG? Description Trigger Query – not implemented. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 76 Remote GPIB Interface Command *WAI Description Wait to Continue – not implemented. Command *TST Description Initiate Self Test – not implemented. Command *TST? Description Self Test Query – not implemented. Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 77 Remote GPIB Interface Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

  • Page 78: Returning The N4963A Clock Synthesizer To Agilent Technologies

    Technologies 6 Returning the N4963A Clock Synthesizer to Agilent Technologies If the N4963A clock synthesizer 13.5 GHz fails system verification and you cannot correct the problem, return it to Agilent Technologies for repair following the steps shown below. 1. Record all symptoms.
  • Page 79 Returning the N4963A Clock Synthesizer to Agilent Technologies Clock Synthesizer 13.5 GHz User Guide This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 80 This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...
  • Page 81 © Copyright Agilent Technologies 2012 Fifth edition, April 2014 Printed in Germany This Manual:http://www.manuallib.com/agilent/n4963a-clock-synthesizer-user-guide.html...

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