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Agilent Technologies 54621A User Manual
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Agilent Technologies 54621A User Manual

Agilent Technologies 54621A User Manual

Oscilloscopes and mixed-signal oscilloscopes
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Summary of Contents for Agilent Technologies 54621A

  • Page 2 • Waveform math including FFT, subtract, multiply, MegaZoom deep memory per channel. integrate, and differentiate • Agilent 54621A - 2-channel, 60-MHz bandwidth • Use Quick Meas to make automatic measurements Integrated counter included with Quick Meas. • Agilent 54621D - 2-channel +16 logic channels, 60- MHz bandwidth •...
  • Page 6 Contents...
  • Page 7 Contents...
  • Page 8 Contents...
  • Page 9 Contents...
  • Page 12 Single...
  • Page 13 Getting Started Using the Oscilloscope, and Refining the Trigger Specification...
  • Page 15 Getting Started To inspect package contents...
  • Page 16 Getting Started To inspect package contents...
  • Page 17 (qty 5) Accessories pouch and front-panel cover** 5090-4356 Clip (qty 20) IntuiLink for 54600-series 10073C or software, Data Capture Power cord 10074C Probes software and serial cable** * 54621D /22D/41D/42D only ** All except 54621A/21D Package contents for 54620/40-Series Oscilloscopes...
  • Page 18 Getting Started To inspect options and accessories Table 1-1 Options available Option Description Shielding Option for use in severe environments or with sensitive devices under test–shields both ways (in and out): RS-03 magnetic interface shielding added to CRT, and RE-02 display shield added to CRT to reduce radiated interference. Rackmount kit (same as 1186A) ANSII Z540 compliant calibration with test data 3-year, customer-return calibration service...
  • Page 19 E2643A 0.5 mm Wedge probe adapter, 16-signal, qty 1 E2644A 0.65 mm Wedge probe adapter, 16-signal, qty 1 N2726A Accessory pouch and front-panel cover (standard except on 54621A/21D) N2727A Thermal printer and pouch N2728A 10 rolls of thermal printer paper...
  • Page 20 Getting Started To inspect options and accessories Table 1-3. Power Cords Plug Type Cable Part Number Plug Type Cable Part Number Opt 900 (U.K.) 8120-1703 Opt 918 (Japan) 8120-4754 Opt 901 (Australia) 8120-0696 Opt 919 (Israel) 8120-6799 Opt 902 (Europe) 8120-1692 Opt 920 (Argentina) 8120-6871...
  • Page 21 Getting Started To clean the oscilloscope C A U T I O N...
  • Page 22 Getting Started To adjust the handle 54622D Agilent MIXED SIGNAL OSCILLOSCOPE CHANNEL Time/Div Select 5 ns INPUTS...
  • Page 23 Getting Started To power-on the oscilloscope T rigger out...
  • Page 24 Getting Started To adjust the waveform intensity Figure 1-1 Bright Intensity control Display Grid...
  • Page 25 Getting Started To connect the oscilloscope analog probes C A U T I O N C A U T I O N...
  • Page 26 Getting Started To compensate your analog probe Probe Comp Autoscale Perfectly compensated Over compensated Under compensated comp.cdr...
  • Page 27 Getting Started To use the digital probes (mixed-signal oscilloscope only)
  • Page 28 Getting Started To use the digital probes (mixed-signal oscilloscope only) Clip...
  • Page 29 Getting Started To use the digital probes (mixed-signal oscilloscope only) Signal Lead Ground Lead Clip Channel Pod Ground Circuit Ground...
  • Page 30 Getting Started To use the digital probes (mixed-signal oscilloscope only) Signals Ground...
  • Page 31 Getting Started To connect a printer Utility Print Confg Print to: Parallel Format Utility Controller RS-232 Baud XON DTR...
  • Page 32 Getting Started To verify basic oscilloscope operation Save/Recall Default Setup Autoscale Verifying Basic Oscilloscope Operation...
  • Page 34 Getting Started To verify basic oscilloscope operation Getting Started...
  • Page 35 Language Language Utility Language...
  • Page 36 Getting Started Selecting a language for Quick Help after you have been operating the oscilloscope Utility Language Language...
  • Page 37 Getting Started Loading an updated language file from floppy disk Utility Language Load Languages Language...
  • Page 40 Cursors Normal...
  • Page 41 Front-Panel Overview Important Oscilloscope Considerations Single Run/Stop Triggering the Oscilloscope Stop...
  • Page 42 Front-Panel Overview Important Oscilloscope Considerations...
  • Page 43 Front-Panel Overview Important Oscilloscope Considerations...
  • Page 44 Front-Panel Overview Important Oscilloscope Considerations...
  • Page 45 Measure Waveform controls Display controls keys keys Entry Trigger knob controls Autoscale Softkeys Utility Probe comp output Floppy Power Vertical Intensity File External disk switch inputs/ control keys Trigger controls input 54621A, 54622A, 54641A, and 54642A 2-Channel Oscilloscopes Front Panel...
  • Page 46 Front-Panel Overview 54620/40-series Oscilloscope Front Panels Figure 2-2 Horizontal Measure Waveform controls Display controls keys keys Entry Trigger knob controls Autoscale Softkeys Utility Probe comp output Floppy Power Vertical Intensity File disk switch inputs/ control keys controls 54624A 4-Channel Oscilloscope Front Panel...
  • Page 47 Front-Panel Overview 54620/40-series Oscilloscope Front Panels Figure 2-3 Horizontal Measure Waveform controls Display controls keys keys Entry Trigger knob controls Autoscale Softkeys Utility Probe Comp output Intensity Floppy Power Analog Channel File Digital Channel control disk switch inputs/ controls keys inputs/ controls 54621D, 54622D, 54641D, and 54642D Mixed-Signal Oscilloscopes Front Panel...
  • Page 48 54621D, 54622D. 54641D, and 54642D digital channels Because all of the oscilloscopes in the 54620/40-series have analog channels, the analog channel topics in this chapter apply to all instruments. Whenever a topic discusses the digital channels, that information applies only to the 54621D, 54622D, 54641D, or 54642D Mixed-Signal Oscilloscopes.
  • Page 49 Front-Panel Overview Interpreting the display Digital Delay Trigger point, Sweep Trigger Trigger Trigger Analog channel time reference time speed mode type source channels activity sensitivity Status line Analog Trigger level channels and or digital ground levels threshold Cursor markers Digital defining channels measurement...
  • Page 50 Front-Panel Overview To use analog channels to view a signal Autoscale Undo Autoscale Autoscale Save/Recall Default Setup Example Save/Recall Default Setup Autoscale Autoscale with analog channels...
  • Page 51 Front-Panel Overview To use digital channels to view a signal Autoscale Undo Autoscale Autoscale Save/Recall Default Setup Example Save/Recall Default Setup Autoscale Autoscale with digital channels (54621D, 54622D, 54641D, and 54642D)
  • Page 52 Front-Panel Overview To display signals automatically using Autoscale Autoscale Undo Autoscale Undo Autoscale Autoscale Autoscale Channels All Channels Autoscale Only Displayed Channels Autoscale Autoscale...
  • Page 53 Front-Panel Overview To apply the default factory configuration Save/Recall Default Setup...
  • Page 54 Front-Panel Overview To adjust analog channel vertical scaling and position Measurement Hints If the channel is DC coupled, you can quickly measure the DC component of the signal by simply noting its distance from the ground symbol. If the channel is AC coupled, the DC component of the signal is removed, allowing you to use greater sensitivity to display the AC component of the signal.
  • Page 55 Front-Panel Overview To set the vertical expand reference for the analog signal Utility Options Expand Expand About Center Expand About Center Utility Options Expand Expand About Ground Expand About Ground Probe...
  • Page 56 Front-Panel Overview To display and rearrange the digital channels D15 Thru D8 D7 Thru D0...
  • Page 57 Front-Panel Overview To operate the time base controls Main/Delayed Vernier Vernier Time Ref Left Time Ref Center Time Ref Right...
  • Page 58 Front-Panel Overview To start and stop an acquisition Run/Stop Run/Stop Single Run/Stop Stop Mode/Coupling Mode Normal Single Run/Stop Single...
  • Page 59 Front-Panel Overview To use delayed sweep Main/Delayed Delayed Main...
  • Page 60 Front-Panel Overview To make cursor measurements Cursors Source X1 X2 Y1 Y2...
  • Page 61 Front-Panel Overview To make automatic measurements Quick Meas Source Clear Meas Quick Meas Select Measure Quick Meas Quick Meas...
  • Page 62 Front-Panel Overview To modify the display grid Display Grid Quick Print Cancel Print Utility Print Confg...
  • Page 65 Trigger Event Pre-Trigger Buffer Post-Trigger Buffer Acquisition Memory Acquisition Memory Mode/Coupling...
  • Page 66 Triggering the Oscilloscope To select a trigger mode: Normal, Auto, Auto Level Mode/Coupling Mode Normal Auto Auto Level Normal Auto Auto Level Single...
  • Page 67 Triggering the Oscilloscope To select a trigger mode: Normal, Auto, Auto Level Run/Stop Single Run/Stop Single...
  • Page 68 Triggering the Oscilloscope To select trigger Coupling Mode/Coupling Coupling DC, AC, LF Reject Reject Mode/Coupling Noise Rej HF Reject Noise Rej HF Reject...
  • Page 69 Triggering the Oscilloscope To set holdoff Mode/Coupling Holdoff 6FRSH WULJJHUV KHUH +ROGRII  QV  QV...
  • Page 70 Triggering the Oscilloscope To set holdoff Holdoff Operating Hints Holdoff keeps a trigger from occurring until after a certain amount of time has passed since the last trigger. This feature is valuable when a waveform crosses the trigger level multiple times during one period of the waveform. Without holdoff, the scope could trigger on each of the crossings, producing a confusing waveform.
  • Page 71 Triggering the Oscilloscope External Trigger Input Ext Trig Ext Trigger C A U T I O N C A U T I O N Mode/Coupling...
  • Page 72 Triggering the Oscilloscope External Trigger Input External Return to Attenuation Measurement Input impedance factor units (54640-series) previous menu Probe Units Volts Amps 1M Ohm 50 Ohm Imped 50 Ohm 1M Ohm...
  • Page 73 MegaZoom Technology Simplifies Triggering With the built-in MegaZoom technology, you can simply Autoscale the waveforms, then stop the scope to capture a waveform. You can then pan and zoom through the data using the Horizontal and Vertical knobs to find a stable trigger point. Autoscale often produces a triggered display.
  • Page 74 Triggering the Oscilloscope To use Edge triggering Edge Trigger Trigger level Slope source or threshold Analog channel Digital channel External or Line Slope source source source...
  • Page 75 Triggering the Oscilloscope To use Edge triggering Threshold D7 Thru D0 D15 Thru D8 Line Line...
  • Page 76 Triggering the Oscilloscope To use Pulse Width triggering Duration More Pulse Width Trigger Trigger level Polarity source or threshold Qualifier Qualifier time set Pulse Source polarity Source Level D7 Thru D0 D15 Thru D8 Threshold...
  • Page 77 Triggering the Oscilloscope To use Pulse Width triggering < > >< < 10 ns 10 ns Trigger > 10 ns 10 ns Trigger >< 10 ns 15 ns 12 ns Trigger...
  • Page 78 Triggering the Oscilloscope To use Pulse Width triggering < > 54620-series • 5 ns to 10 for > or < qualifier • 10 ns to 10 s for >< qualifier, with minimum difference of 5 ns between upper and lower settings 54640-series •...
  • Page 79 Triggering the Oscilloscope To use Pattern triggering Pattern Selected Trigger level Pattern channel or threshold trigger Logic High Don’t care Rising or Channel Logic Low falling edge select Channel Channel Pattern = Level D7 Thru D0 D15 Thru D8 Threshold...
  • Page 80 Triggering the Oscilloscope To use Pattern triggering Specifying an Edge in a Pattern You are allowed to specify only one rising or falling edge term in the pattern. If you define an edge term, then select a different channel in the pattern and define another edge term, the previous edge definition is changed to a don’t care.
  • Page 81 Triggering the Oscilloscope To use CAN triggering Settings Inter- Data Arbitration Control mission Field Field Field Field Field Idle SOF edge More Trigger Settings Currently selected Trigger level signal source or threshold CAN trigger Signal Return to Signal type Trigger on: Signal source previous menu...
  • Page 82 Triggering the Oscilloscope To use CAN triggering Baud 10 kb/s 50 kb/s 125 kb/s 800 kb/s 20 kb/s 83.3 kb/s 250 kb/s 1 Mb/s 33.3 kb/s 100 kb/s 500 kb/s Trigger: Signal Source CAN_H CAN_L Differential Source Source Threshold D7 Thru D0 D15 Thru D8...
  • Page 83 Triggering the Oscilloscope To use Duration triggering More Duration Trigger Settings Selected Trigger level Duration channel or threshold trigger Qualifier Return to Qualifier time set Channel Logic level previous menu select Channel Channel Pattern = Level D7 Thru D0 D15 Thru D8 Threshold...
  • Page 84 Triggering the Oscilloscope To use Duration triggering Qualifier < > Timeout >< <> < >...
  • Page 85 Triggering the Oscilloscope To use Duration triggering < > < >< <> > >< <> Timeout When the duration trigger occurs The timer starts on the last edge that makes the pattern (logical AND) true. The trigger will occur on the first edge that makes the pattern false if the time qualifier criteria of the pattern has been met, except in Timeout mode.
  • Page 86 Triggering the Oscilloscope To use I2C triggering More Trigger Settings Currently selected Clock Trigger level or Data channel or threshold C trigger Address Data Trigger on: Return to SDA Data SCL Clock value condition previous menu channel channel Level Threshold D7 Thru D15 Thru D8...
  • Page 87 Triggering the Oscilloscope To use I2C triggering Level Threshold D7 Thru D15 Thru D8 Trigger: Start Condition Stop Condition Address Start Data Stop Condition Condition Missing Acknowledge Restart...
  • Page 88 Triggering the Oscilloscope To use I2C triggering EEPROM Data Read Data Data is Read Data Control byte Start or Trigger point Restart Condition Frame (Start: Addr7: Read: Ack: Data) Frame (Start: Addr7: Write: Ack: Data) Read Write Address Data Stop Start or Trigger point Condition...
  • Page 89 Triggering the Oscilloscope To use I2C triggering 10-bit Write Write Stop Address R/W Ack1 Address Ack2 Data Start or 1st byte Condition 2nd byte Restart Trigger point Condition 26th clock edge Data is Data Data is Data...
  • Page 90 Triggering the Oscilloscope To use I2C triggering Address Data...
  • Page 91 Triggering the Oscilloscope To use Sequence triggering Start Trigger on:? Find:? Scope triggers Reset on:? Trigger holdoff Sequence Trigger Flowchart...
  • Page 92 Triggering the Oscilloscope To use Sequence triggering More Sequence Trigger Settings Sequence Selected Trigger level trigger channel or threshold Sequence stage definitions Term definitions Select Define Find, Trigger on, Return to Stage Channel term term or Reset condition previous menu select select...
  • Page 93 Triggering the Oscilloscope To use Sequence triggering Stage Find: Stage Find Find: Pattern 1 Entered Pattern 1 Exited Edge 1 Pattern 1 and Edge 1 Find: Term Find: Channel L H X Level Threshold D7 Thru D0 D15 Thru D8...
  • Page 94 Triggering the Oscilloscope To use Sequence triggering Channel Stage Trigger on: Stage Trigger on: Trigger: Pattern 2 Entered Pattern 2 Exited Edge 2 Pattern 2 and Edge 2 Nth Edge 2 Trigger: Term Trigger: Channel L H X...
  • Page 95 Triggering the Oscilloscope To use Sequence triggering Channel Nth Edge 2 Trigger: Term Count (N) Stage Reset on: Stage Reset on: Reset: No Reset Pattern 1 2 Entered Pattern 1 or 2 Exited Edge 1 Pattern 1 and Edge 1 Timeout...
  • Page 96 Triggering the Oscilloscope To use Sequence triggering Reset: Term Reset: No Reset Channel L H X Channel Timeout Term Timeout Timeout Level Threshold D7 Thru D0 D15 Thru D8...
  • Page 97 Triggering the Oscilloscope To use SPI triggering Settings Signals Settings More Trigger Settings Currently selected Clock, Trigger level Framing, or Data channel or threshold SPI trigger Graphic showing current state of the SPI trigger setup Data string values Data bit Set all Data bit Return to...
  • Page 98 Triggering the Oscilloscope To use SPI triggering #Bits L H X L H X Set all Bits...
  • Page 99 Triggering the Oscilloscope To use SPI triggering Signals Frame by Frame Data Return to Clock Clock condition channel channel previous menu slope channel Clock Clock Threshold D7 Thru D0 D15 Thru D8...
  • Page 100 Triggering the Oscilloscope To use SPI triggering Labels automatically set for clock, data, and chip select signals Graphic showing current state of SPI trigger clock slope and chip select polarity or timeout selection Data DATA Data DATA Threshold D7 Thru D0 D15 Thru D8...
  • Page 101 Triggering the Oscilloscope To use SPI triggering Frame by Timeout Timeout Timeout Frame by Timeout Frame by Frame by Threshold D7 Thru D0 D15 Thru D8...
  • Page 102 Triggering the Oscilloscope To use TV triggering More Trigger Settings Selected TV Mode trigger channel TV mode Line # TV Standard Return to Sync Source previous menu polarity channel Source Level Mode/Coupling...
  • Page 103 Triggering the Oscilloscope To use TV triggering Provide Correct Matching Many TV signals are produced from 75 sources. To provide correct matching to these sources, a 75 terminator (such as an Agilent 11094B) should be connected to the oscilloscope input. Standard Mode Field1...
  • Page 104 Triggering the Oscilloscope To use TV triggering Line # Count # Line (or count for Generic) numbers per field for each TV standard TV standard Field 1 Field 2 Alt Field NTSC 1 to 263 1 to 262 1 to 262 1 to 313 314 to 625 1 to 312...
  • Page 105 Triggering the Oscilloscope To use TV triggering Example exercises Level More Settings Standard Mode Line:Field1 Line:Field2 Line:Alternate Line # Alternate Triggering If Line:Alternate is selected, the oscilloscope will alternately trigger on the selected line number in Field 1 and Field 2. This is a quick way to compare the Field 1 VITS and Field 2 VITS or to check for the correct insertion of the half line at the end of Field 1.
  • Page 106 Triggering the Oscilloscope To use TV triggering Triggering on Line 71 Line Numbers per Field for Each TV Standard TV Standard Field 1 Field 2 Alt Fld NTSC 1 to 263 1 to 262 1 to 262 1 to 313 314 to 625 1 to 313 PAL-M...
  • Page 107 Triggering the Oscilloscope To use TV triggering More Settings Standard Mode All Lines Triggering on All Lines...
  • Page 108 Triggering the Oscilloscope To use TV triggering More Settings Standard Mode Field1 Field2 Triggering on Field 1...
  • Page 109 Triggering the Oscilloscope To use TV triggering More Settings Standard Mode All Fields Triggering on All Fields...
  • Page 110 Triggering the Oscilloscope To use TV triggering More Settings Standard Mode Field1 Field2 Triggering on Color Field 1 Alternating with Color Field 3...
  • Page 111 Triggering the Oscilloscope To use TV triggering Holdoff Mode/Coupling Holdoff Settings Video Standard Fields/Picture Holdoff Range NTSC 33.5 ms to 50.0 ms 80.7 ms to 120 ms SECAM 40.4 ms to 60 ms PAL-M 80.4 ms to 120 ms Triggering on Color Field 1 using Holdoff (single-shot)
  • Page 112 Triggering the Oscilloscope To use USB triggering End of packet trigger D+,– Bus Idle D–,+ SE0 portion of EOP More Trigger Settings Currently selected Trigger level data source or threshold USB trigger Trigger on: Return to D– source D+ source Signal condition previous menu...
  • Page 113 Triggering the Oscilloscope To use USB triggering 3 Press the D– softkeys to select the channel connected to the USB signal D+ and D– lines. The labels for the source channels D– are automatically set. As you press the D+ D–...
  • Page 114 User Cal Utility To perform Service service functions...
  • Page 118 MegaZoom Concepts and Oscilloscope Operation Deep Memory 54620-series 2 MB/ analog channel, 4MB max with single analog channel in Single mode. 8 MB/digital channel single pod, 4 MB/digital channel with 2 pods in use. 54640-series 4 MB/ analog channel, 8MB max with single analog channel in Single mode. 4 MB/digital channel single pod, 4 MB/digital channel with 2 pods in use.
  • Page 119 MegaZoom Concepts and Oscilloscope Operation Oscilloscope Responsiveness...
  • Page 120 MegaZoom Concepts and Oscilloscope Operation Display Update Rate...
  • Page 121 MegaZoom Concepts and Oscilloscope Operation To setup the Analog channels Channel, Trigger Trigger level Volts/div source or threshold Channel 1 ground level Channel 2 ground level Input Channel Bandwidth Channel Invert Probe impedance coupling limit vernier channel menu (54640-series) Turning channels off If more than one channel is turned on (channel keys are illuminated), you must be viewing the menu for a channel before you can turn it off.
  • Page 122 MegaZoom Concepts and Oscilloscope Operation To setup the Analog channels Expand Utility Options Center Coupling Ground...
  • Page 123 MegaZoom Concepts and Oscilloscope Operation To setup the Analog channels Imped 1M Ohm 50 Ohm Imped 50 Ohm 1M Ohm BW Limit BW Limit BW Limit Vernier Invert...
  • Page 124 MegaZoom Concepts and Oscilloscope Operation To setup the Analog channels Probe Attenuation Return to Measurement Skew adjust factor previous menu units (54640-series) Probe Units Volts Amps Autoscale Default Setup Save/Recall Skew...
  • Page 125 MegaZoom Concepts and Oscilloscope Operation To setup the Horizontal time base Main/Delayed Sweep Trigger Trigger level Trigger Time Delay source or threshold point reference time speed Current sample rate Time Main sweep Delayed Roll Time base reference mode sweep mode mode mode vernier...
  • Page 126 MegaZoom Concepts and Oscilloscope Operation To setup the Horizontal time base Vernier Vernier Time Ref...
  • Page 127 MegaZoom Concepts and Oscilloscope Operation To setup the Horizontal time base...
  • Page 128 MegaZoom Concepts and Oscilloscope Operation To setup the Horizontal time base Time/div for Time/div for Delay time momentarily These markers define the delayed sweep main sweep displays when the delay beginning and end of the time knob is turned delayed sweep window Main sweep window Delayed sweep...
  • Page 129 MegaZoom Concepts and Oscilloscope Operation To setup the Horizontal time base Main...
  • Page 130 MegaZoom Concepts and Oscilloscope Operation To setup the Horizontal time base Single...
  • Page 131 MegaZoom Concepts and Oscilloscope Operation Acquisition Modes Acquire...
  • Page 132 MegaZoom Concepts and Oscilloscope Operation Acquisition Modes All points displayed after Single or Stop After a Single acquisition or when the oscilloscope has been stopped, all acquired points are displayed.
  • Page 133 MegaZoom Concepts and Oscilloscope Operation Acquisition Modes # Avgs # Avgs # Avgs Bits of resolution...

  • Page 134: Table Of Contents

    MegaZoom Concepts and Oscilloscope Operation Acquisition Modes # Avgs 54620-series 54640-series Bits of resolution Sweep speed Sweep speed (# Avgs=1) 2 us/div 200 ns/div 5 us/div 1 us/div 20 us/div 5 us/div 100 us/div 20 us/div 500 us/div 100 us/div...
  • Page 135 MegaZoom Concepts and Oscilloscope Operation Display modes Display Persist Clear Display Clear Display Clear Display Grid...
  • Page 136 MegaZoom Concepts and Oscilloscope Operation Display modes Vectors...
  • Page 137 MegaZoom Concepts and Oscilloscope Operation Pan and Zoom Zoom The screen will still contain a relatively good display if you zoom in horizontally by a factor of 1000 and zoom in vertically by a factor of 10 to display the information from where it was acquired.
  • Page 138 MegaZoom Concepts and Oscilloscope Operation To pan and zoom a waveform Run/Stop Run/Stop...
  • Page 139 Run/Stop Run/Stop Single Clear Display...
  • Page 140 MegaZoom Concepts and Oscilloscope Operation Acquiring Data Single Run/Stop Run/Stop Single Run/Stop Average...
  • Page 141 MegaZoom Concepts and Oscilloscope Operation Memory Depth/Record Length Single Single...
  • Page 142 MegaZoom Concepts and Oscilloscope Operation To run and stop an acquisition Run/Stop Run/Stop STOP Single Single Single Single...
  • Page 143 MegaZoom Concepts and Oscilloscope Operation To capture a single event Mode/Coupling Mode Normal Single Single Single Run/Stop Single Operating Hints When Trigger Mode is set to Auto or AutoLvl (auto-single mode), each time Single is pressed the oscilloscope will wait for a valid trigger. If no trigger is found after about 40 ms, the oscilloscope will force a trigger, acquiring whatever signal is present.
  • Page 144 MegaZoom Concepts and Oscilloscope Operation To use infinite persistence Display Persist Clear Display Clear Display Clearing stored infinite persistence waveforms In addition to clearing the display by pressing the Clear Display softkey, the display is also cleared of previous acquisitions any time you make a setting that will change the display, including changing sweep speed, volts/division, delay time, or channel position controls.
  • Page 145 MegaZoom Concepts and Oscilloscope Operation To clear the waveform display Display Clear Display Summary of oscilloscope Run Control and infinite persistence keys Run/Stop illuminated green—acquires data and displays the most recent trace. Run/Stop illuminated red—freezes the display. Single—acquires a single trace. Persist—infinite persistence acquires data, displaying the most recent trace in full-bright and previously acquired waveforms in half-bright.
  • Page 146 Autoscale Undo Autoscale Save/Recall Default Setup...
  • Page 147 MegaZoom Concepts and Oscilloscope Operation Interpreting the digital waveform display Delay Activity Trigger Trigger Sweep indicator time mode or run type and speed/div status source Threshold level Digital channel identifier Turn all Waveform User-defined Channel Digital on/off channels size threshold threshold on/off...
  • Page 148 MegaZoom Concepts and Oscilloscope Operation To display and rearrange the digital channels D15 Thru D8 D7 Thru D0 D15 Thru D8 D7 Thru D0 List of stacked channels...
  • Page 149 MegaZoom Concepts and Oscilloscope Operation To turn individual channels on and off D15 Thru D8 D7 Thru D0 User List of channels in pod and on/off status Digital channel on/off key...
  • Page 150 MegaZoom Concepts and Oscilloscope Operation To force all channels on or all channels off D15 Thru D8 D7 Thru D0 Turn on Turn off Turn on Turn Turn on/Turn off softkey and D15 Thru D8/D7 Thru D0 key differences The Turn on/Turn off softkey toggles the on/off state of the channels. The D15 Thru D8/D7 Thru D0 front-panel key toggles the display state of the channels.
  • Page 151 MegaZoom Concepts and Oscilloscope Operation To change the logic threshold for digital channels D15 Thru D8 D7 Thru D0 Threshold User Logic family Threshold Voltage 1.4 V CMOS 2.5 V –1.3 V User Variable from –8 V to +8 V D15 Thru D8 D7 Thru D0 Threshold...
  • Page 152 MegaZoom Concepts and Oscilloscope Operation Using Digital Channels to Probe Circuits 8.5 pF 100 k DC and Low-Frequency Probe Equivalent Circuit...
  • Page 153 MegaZoom Concepts and Oscilloscope Operation Using Digital Channels to Probe Circuits 7.5 pF 1 pF 100 k High-Frequency Probe Equivalent Circuit 100 k 10 k High Frequency Model Typical Model 10 kHz 100 kHz 1 MHz 10 MHz 100 MHz 1 GHz Frequency Impedance versus Frequency for Both Probe Circuit Models...
  • Page 154 MegaZoom Concepts and Oscilloscope Operation Using Digital Channels to Probe Circuits ---- - Probe 1 L (GND) Probe (Common Mode) Ground Probe 2 Probe N Common Mode Input Voltage Model...
  • Page 155 MegaZoom Concepts and Oscilloscope Operation Using Digital Channels to Probe Circuits L di...
  • Page 157 MegaZoom Concepts and Oscilloscope Operation To turn the label display on or off Label Label Label...
  • Page 158 MegaZoom Concepts and Oscilloscope Operation To assign a predefined label to a channel Label Channel Library Library Save New Label...
  • Page 159 MegaZoom Concepts and Oscilloscope Operation To define a new label Label Channel Spell Spell New label =" Enter Enter Enter Delete Character Save New Label Label Assignment Auto-Increment Features When you assign a label ending in a digit, such as ADDR0 or DATA0, the oscilloscope automatically increments the digit and displays the modified label in the “New label”...
  • Page 160 MegaZoom Concepts and Oscilloscope Operation To define a new label Label List Management When you press the Library softkey, you will see a list of the last 75 labels used. The list does not save duplicate labels. Labels can end in any number of trailing digits. As long as the base string is the same as an existing label in the library, the new label will not be put in the library.
  • Page 161 MegaZoom Concepts and Oscilloscope Operation To reset the label library to the factory default Utility Options C A U T I O N Default Library Defaulting labels without erasing the default library. Selecting Default Setup in the Save/Recall menu will set all channel labels back to the default labels (1, 2, D15-D0), but does not erase the list of user-defined labels in the Library.
  • Page 162 Making a hardcopy print To make a hardcopy of the complete screen image including the status line and softkeys, use the Quick Print key. Configure your printer in the Utility -> Print Confg menu. Save/Recall...
  • Page 163 MegaZoom Concepts and Oscilloscope Operation To Autosave traces and setups Press to Autosave QFILE_nn QFILE_nn Utility Save...
  • Page 164 MegaZoom Concepts and Oscilloscope Operation To save traces and setups to internal memory or to overwrite an existing floppy disk file Save INTERN_n QFILE_nn Press to Save New File...
  • Page 165 MegaZoom Concepts and Oscilloscope Operation To save traces and setups to a new file on the floppy disk New File Spell New file name =" Enter Enter Enter Delete Character Press to Save SCOPE1.TRC SCOPE1.SCP...
  • Page 166 MegaZoom Concepts and Oscilloscope Operation To recall traces and setups Save/Recall Recall Recall Trace Setup Trace and Setup From: INTERN_n Recalling overwrites current settings Because recalling a setup will overwrite the oscilloscope’s current settings, you may want to save the existing setup first. Press to Recall Clear Display...
  • Page 167 MegaZoom Concepts and Oscilloscope Operation Saving (printing) screen images to floppy disk Save/Recall Formats Quick Print Utility Print Confg Quick Print CSV TIF Utility Print Confg Quick Print...
  • Page 168 MegaZoom Concepts and Oscilloscope Operation Recalling the factory default setup Save/Recall Default Setup...
  • Page 172 Making Measurements To use delayed sweep Main/Delayed Delayed Time/div for Time/div for Delay time momentarily These markers define the delayed sweep main sweep displays when the delay beginning and end of the time knob is turned delayed sweep window Main sweep window Delayed sweep window...
  • Page 173 Making Measurements To use delayed sweep Main...
  • Page 174 Making Measurements To reduce the random noise on a signal 0 dB 3 dB down point Pass Band 50 kHz HF Reject...
  • Page 175 Making Measurements To reduce the random noise on a signal 0 dB 3 dB down point Pass Band 50 kHz LF Reject Random noise on the displayed waveform...

  • Page 176: Avgs

    Making Measurements To reduce the random noise on a signal Acquire Averaging # Avgs # Avgs # Avgs Bits of resolution 128 Averages used to reduce noise...

  • Page 177: 54620-Series

    Making Measurements To reduce the random noise on a signal # Avgs 54620-series 54640-series Bits of resolution Sweep speed Sweep speed (# Avgs=1) 2 us/div 200 ns/div 5 us/div 1 us/div 20 us/div 5 us/div 100 us/div 20 us/div 500 us/div 100 us/div...
  • Page 178 Making Measurements To capture glitches or narrow pulses with peak detect and infinite persistence Acquire Peak Det...
  • Page 179 Making Measurements To capture glitches or narrow pulses with peak detect and infinite persistence Display Persist Clear Display Clear Display Persist Main/Delayed Delayed...
  • Page 180 Making Measurements To use the Roll horizontal mode Main/Delayed Roll Single...
  • Page 181 Making Measurements To use the XY horizontal mode Autoscale Main/Delayed Vernier -- - or --- - Signal must be centered in “X” Example of centering a signal on the display...
  • Page 182 Making Measurements To use the XY horizontal mode Signal centered on the display Cursors Cursors set on displayed signal...
  • Page 183 Making Measurements To use the XY horizontal mode Cursors set to center of signal second Y 0.648 -------------------------- ------------ - ; = 32.68 degrees of phase shift first Y 1.20 XY Display Mode Operating Hint (Z-axis input on 54620-series only) When you select the XY display mode, the time base is turned off.
  • Page 184 Making Measurements To use the XY horizontal mode Signals are 90 out of phase Signals are in phase...
  • Page 185 Math Settings Math Operating Hints • If the analog channel or math function is clipped (not fully displayed on screen,) the resulting displayed math function will also be clipped. • Once the function is displayed, the analog channel(s) may be turned off for better viewing.
  • Page 186 Making Measurements Math Scale and Offset Settings Math Scale and Offset are Set Automatically Any time the currently displayed math function definition is changed, the function is automatically scaled for optimum vertical scale and offset. If you manually set scale and offset for a function, select a new function, then select the original function, the original function will be automatically rescaled.
  • Page 187 Making Measurements Multiply 1 * 2 Math 1 * 2 Settings Scale Probe Scale Offset Offset Channel 1 Channel 2 1 * 2 waveform 1 * 2 1 * 2 Return to Offset Scale previous menu Multiply...
  • Page 188 Making Measurements Subtract 1 – 2 Invert Math 1 – 2 Settings Scale Probe Scale Offset Offset Probe Units Channel 1 Channel 2 1 – 2 waveform 1 – 2 1 – 2 Return to Offset Scale previous menu Subtract...
  • Page 189 Making Measurements Differentiate d/dt Averaging Acquire d/dt Math d/dt Settings Source Scale Probe Scale Offset Offset Probe Units...
  • Page 190 Making Measurements Differentiate Channel 1 d/dt waveform Source d/dt d/dt Return to select Offset Scale previous menu Differentiate...
  • Page 191 Making Measurements Integrate Math Settings Source Scale Probe Scale Offset Offset...
  • Page 192 Making Measurements Integrate Channel 1 dt waveform Channel 1 dt waveform Source dt Scale Return to select Offset previous menu Integrate and Signal Offset...
  • Page 193 Making Measurements FFT Measurement...
  • Page 194 Making Measurements FFT Measurement Aliasing...
  • Page 195 Making Measurements FFT Measurement Math Settings Center Preset Span Return to Source Frequency Vertical and frequency and Center previous menu select Span Window FFT frequencies controls Source Span Span Center Center Preset...
  • Page 196 Making Measurements FFT Measurement Window Return to FFT Scale FFT Offset previous menu Scale Scale Offset Offset Scale and offset considerations If you do not manually change the FFT scale or offset settings, when you turn the horizontal sweep speed knob, the span and center frequency settings will automatically change to allow optimum viewing of the full spectrum.
  • Page 197 Making Measurements FFT Measurement Quick Meas Source Math FFT measurements FFT Measurement Hints It is easiest to view FFTs with Vectors set to On. The Vector display mode is set in the Display menu. The number of points acquired for the FFT record 2048 and when frequency span is at maximum, all points are displayed.
  • Page 198 Making Measurements FFT Measurement FFT Measurement Hints - Continued While the FFT spectrum is displayed, use the Math and Cursors keys to switch between measurement functions and frequency domain controls in FFT menu. Decreasing the effective sampling rate by selecting a slower sweep speed will increase the low frequency resolution of the FFT display and also increase the chance that an alias will be displayed.
  • Page 199 Cursors Quick Meas...
  • Page 200 Making Measurements To make cursor measurements Cursors Cursors Mode Normal Binary...
  • Page 201 Making Measurements To make cursor measurements Source Normal Source Probe Units...
  • Page 202 Making Measurements To make cursor measurements X1 X2 Y1 Y2 Cursor Examples Cursors measure pulse widths other than 50% points...
  • Page 203 Making Measurements To make cursor measurements Cursors measure frequency of pulse ringing Cursors track delayed sweep...
  • Page 204 Making Measurements To make cursor measurements Measuring pulse width with cursors X1 X2 Moving the cursors together to check pulse width variations...
  • Page 205 Quick Meas * Measurement on analog channels only.
  • Page 206 Making Measurements Making automatic measurements Quick Meas Quick Meas Press to make Erase all Additional Source Select measurement measurements settings select measurement Source Clear Meas Quick Meas Select Settings Measure Quick Meas Quick Meas...
  • Page 207 Making Measurements Making time measurements automatically FFT measurements When you make an X at Max or X at Min measurement on a math FFT function, the resultant units will be in Hertz. No other time related automatic measurement can be made on the FFT math function. Use the cursors to make other measurements on FFT.
  • Page 208 Making Measurements Making time measurements automatically Counter Duty Cycle + Width ------------------- X 100 Duty cycle = Period Frequency Period...
  • Page 209 Making Measurements Making time measurements automatically Fall Time Rise Time + Width – Width X at Max Math Math Quick Meas Maximum X at Max Maximum X at Max...
  • Page 210 Making Measurements Making time measurements automatically X at Min Isolating event for Frequency measurement...
  • Page 211 Making Measurements Making Delay and Phase Measurements Digital channel measurements Automatic measurements Phase, and Delay are not valid for digital channels on the mixed-signal oscilloscope or for the math FFT function. The two sources defined in the phase and delay measurement must be turned. Delay Source 1 Delay...
  • Page 212 Making Measurements Making Delay and Phase Measurements Phase Settings Delay ---------------------------------------- - X 360 Phase = Source 1 Period Period Source 1 Delay Source 2 Settings Phase Measurement...
  • Page 213 Making Measurements Making voltage measurements automatically Probe Units Probe Units Math Measurements and Units Only Peak-Peak, Maximum, Minimum, Average, X at Min, and X at Max automatic measurements may be made on a math FFT function. See “Making time measurements automatically” for the FFT X at Max and X at Min measurement. Use the cursors to make other measurements on FFT.
  • Page 214 Making Measurements Making voltage measurements automatically Digital channel voltage measurements Automatic voltage measurements are not valid on digital channels on the mixed-signal oscilloscope. Amplitude Average --------- - Average = Base Maximum Minimum Peak-Peak...
  • Page 215 Making Measurements Making voltage measurements automatically --------------- - RMS (dc) = Isolating area for Top measurement...
  • Page 216 Making Measurements Making overshoot and preshoot measurements Digital channel time measurements Automatic measurements Preshoot and Overshoot are not valid measurements for the math FFT function or for digital channels on the mixed-signal oscilloscope. Preshoot Base – local Minimum Rising edge preshoot = ------------------------------------------------------ X 100 Amplitude local Maximum –...
  • Page 217 Making Measurements Making overshoot and preshoot measurements Overshoot local Maximum – Top Rising edge overshoot = ----------------------------------------------------- X 100 Amplitude Base – local Minimum Falling edge overshoot = ------------------------------------------------------ X 100 Amplitude Overshoot local Maximum Base local Minimum Overshoot Automatic Overshoot measurement...
  • Page 220 Utility...
  • Page 221 Utilities To configure Quick Help languages Utility Language Language Version Return to Current Load new previous menu language language information file...
  • Page 222 Utilities To configure Quick Help languages Utility Language Load Languages Loading Language file. Please Wait. Language Language Info Language Info...
  • Page 223 Utilities To update your instrument to the latest application software Always update your localized Quick Help file to match the latest instrument application software If you update your application software, always update your Quick Help localized languages to the latest version by downloading the language file from the above web site.
  • Page 224 Utilities To configure a printer Factors Gray Scale Form Feed Return to Print to: Format previous menu Utility Print Confg Print to: Parallel Disk PRINT_nn.xxx Format Parallel DeskJet LaserJet Epson Seiko DPU 414 (portable) Disk TIF image BMP image CSV data...
  • Page 225 Utilities To configure a printer Length Factors PRINT_nn.TXT Gray Scale Format LaserJet DeskJet Form Feed...
  • Page 226 Utilities To use the floppy disk Delete selected Return to Floppy disk Load selected file previous menu file file File: Load File QFILE_nn.SCP QFILE_nn.TRC Save/Recall LANGPACK.JZP *.BIN *.JZP PRINT_nn.xxx Delete File Deleted files cannot be recovered A file that has been deleted from the floppy disk cannot be recovered by the oscilloscope.
  • Page 227 Utilities To set up the I/O port to use a controller Handshake GPIB Return to Controller RS-232 address previous menu type Baud rate Controller GPIB RS-232 XON DTR Baud Address Address...
  • Page 228 Utilities To set up the I/O port to use a controller Pin Number Signal Data Carrier Detect Receive Data Transmit Data Data Terminal Ready Signal Ground Data Set Ready Request to Send Clear to Send Ring SHELL Protective Ground     Pin out of oscilloscope RS-232 port looking into DB9 male connector Oscilloscope PC/Controller...
  • Page 229 Utilities To set the clock Utility Options Clock Day set Hour set Return to Year set Month set Minute set previous menu Year Month Day Hour Minute...
  • Page 230 Utilities To set up the screen saver Utility Options Screen Svr Preview Return to Screen saver Screen saver previous menu image time set Saver User Spell Text = User-defined List of characters displayed text string when Entry knob is turned Spell Enter Enter...
  • Page 231 Utilities To set up the screen saver Svr Time Svr Time Preview Saver...
  • Page 232 Utilities To perform service functions Utility Service About User Cal Return to Start Start Oscilloscope status previous menu User Cal Self Test Start User Cal Start User Cal...
  • Page 233 Utilities To perform service functions User Cal Status Results: User Cal date: DT since last User Cal: Failure: Comments: Start Self Test About Oscilloscope...
  • Page 234 Utilities To set other options Expand About Ground Expand About Center Default Library Label Library...
  • Page 237 * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Acquisition: Analog Channels Max Sample rate 200 MSa/s Max Memory Depth 4 MB Vertical Resolution 8 bits Peak Detection 5 ns Averages...
  • Page 238 * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Vertical System: Analog Channels Analog channels 54621A/21D, 54622A/22D: Ch1 and 2 simultaneous acquisition 54624A: Ch 1, 2, 3, and 4 simultaneous acquisition Bandwidth (-3dB)* 54621A/22D: dc to 60 MHz...
  • Page 239 Performance Characteristics Agilent 54620-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Vertical System: Analog Channels (continued) ESD Tolerance ±2 kV Noise Peak-to-Peak 2% full scale or 1 mV, whichever is greater Common Mode Rejection Ratio 20 dB @ 50 MHz...
  • Page 240 Performance Characteristics Agilent 54620-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Horizontal Range 5 ns/div to 50 s/div Resolution 25 ps Vernier 1-2-5 increments when off, 25 minor increments between major settings when on Reference Positions Left, Center, Right...
  • Page 241 * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Trigger System Sources: 54621A/22A: Ch 1, 2, line, ext 54621D/22D: Ch 1, 2, line, ext, D15 - D0 54624A: Ch 1, 2, 3, 4, line, ext Modes...
  • Page 242 25 MHz, < 75 mV 25 MHz to max bandwidth, < 150 mV Coupling AC (~ 3.5 Hz), DC, noise reject, HF reject and LF reject (~ 50 kHz) Probe ID (Agilent/HP & Tek Auto probe sense for 54621A/22A Compatible)
  • Page 243 Performance Characteristics Agilent 54620-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Display System Display 7-inch raster monochrome CRT Throughput of Analog Channels 25 million gray scale vectors/sec per channel Resolution 255 vertical by 1000 horizontal points (waveform area)
  • Page 244 Performance Characteristics Agilent 54620-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Points Fixed at 2048 points Source of FFT Analog channels 1 or 2 (or 3 or 4 for 54624A), 1+2, 1-2, 1*2 Window Rectangular, Flattop, Hanning Noise Floor...
  • Page 245 Performance Characteristics Agilent 54620-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. General Characteristics Physical: Size 32.26 cm wide x 17.27 cm high x 31.75 cm deep (without handle) Weight 6.35 kgs (14 lbs) Calibrator Output...
  • Page 246 Performance Characteristics Agilent 54620-series Performance Characteristics...
  • Page 247 * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Acquisition: Analog Channels Max Sample rate 2 GSa/s Max Memory Depth Vertical Resolution 8 bits Peak Detection 1 ns @ max sample rate Averages selectable from 2, 4, 8, 16, 32, 64 ...to 16383...
  • Page 248 Performance Characteristics Agilent 54640-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Vertical System: Analog Channels Analog channels Ch1 and 2 simultaneous acquisition Bandwidth (-3dB)* 54641A/42D: dc to 350 MHz 54642A/42D: dc to 500 MHz...
  • Page 249 Performance Characteristics Agilent 54640-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Vertical System: Analog Channels (continued) ESD Tolerance ±2 kV Noise Peak-to-Peak 3% full scale or 3 mV, whichever is greater Common Mode Rejection Ratio 20 dB @ 50 MHz...
  • Page 250 Performance Characteristics Agilent 54640-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Horizontal Range 1 ns/div to 50 s/div Resolution 2.5 ps Vernier 1-2-5 increments when off, 25 minor increments between major settings when on Reference Positions Left, Center, Right...
  • Page 251 Performance Characteristics Agilent 54640-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Trigger System Sources: 54641A/42A: Ch 1, 2, line, ext 54641D/42D: Ch 1, 2, line, ext, D15 - D0 Modes Auto, Triggered (normal), Single Holdoff Time...
  • Page 252 Performance Characteristics Agilent 54640-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Analog Channel Triggering Range (Internal) ±6 div Sensitivity* <10 mV/div: Greater of 1 div or 5 mV 10 mV/div: 0.6 div Coupling ac (~10 Hz), dc, noise reject, HF reject and LF reject (~ 50 kHz)
  • Page 253 Performance Characteristics Agilent 54640-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Display System Display 7-inch raster monochrome CRT Throughput of Analog Channels 25 million gray scale vectors/sec per channel Resolution 255 vertical by 1000 horizontal points (waveform area)
  • Page 254 Performance Characteristics Agilent 54640-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. Points Fixed at 2048 points Source of FFT Analog channels 1 or 2, 1+2, 1-2, 1*2 Window Rectangular, Flattop, Hanning Noise Floor...
  • Page 255 Performance Characteristics Agilent 54640-series Performance Characteristics * Denotes Warranted Specifications, all others are typical. Specifications are valid after a 30-minute warm-up period and ±10 °C from firmware calibration temperature. General Characteristics Physical: Size 32.26 cm wide x 17.27 cm high x 31.75 cm deep (without handle) Weight 6.82 kgs (15 lbs) Calibrator Output...
  • Page 258 Index...
  • Page 259 Index...
  • Page 260 Index...

  • Page 261: Declaration Of Conformity

    (including 93/68/EEC) and carries the CE-marking accordingly (European Union). The product was tested in a typical configuration with Agilent Technologies test systems. Date: 06/28/2000 Name Ken Wyatt / Product Regulations Manager For further information, please contact your local Agilent Technologies sales office, agent or distributor.
  • Page 262 A Pass - Normal operation, no effect. B Pass - Temporary degradation, self recoverable. C Pass - Temporary degradation, operator intervention required. D Fail - Not recoverable, component damage. Notes: (1) 54621D/54622D = A, 54621A/54622A/54624A = B Sound Pressure Level Less than 60 dBA...
  • Page 263 The product was tested in a typical configuration with Agilent Technologies test systems. The product meets CISPR requirements using “type test” specified in IEC 61326-1 edition 1.1, section 3.1.. Date: 02/11/2002 Name Ken Wyatt / Product Regulations Manager For further information, please contact your local Agilent Technologies sales office, agent or distributor.
  • Page 264 Product Regulations Performance Criteria IEC 61326-1:1997+A1:1998 / EN 61326-1:1997+A1:1998 CISPR 11:1990 / EN 55011:1991 IEC 61000-4-2:1995+A1:1998 / EN 61000-4-2:1995 IEC 61000-4-3:1995 / EN 61000-4-3:1995 IEC 61000-4-4:1995 / EN 61000-4-4:1995 IEC 61000-4-6:1996 / EN 61000-4-6:1996 Canada: ICES-001:1998 Australia/New Zealand: AS/NZS 2064.1 Safety IEC 61010-1:1990+A1:1992+A2:1995 / EN 61010-1:1994+A2:1995 Canada: CSA C22.2 No.
  • Page 265 (for volt- age reduction or mains isola- tion), the common terminal must be connected to the earth termi- nal of the power source. Agilent Technologies Inc. P.O. Box 2197 1900 Garden of the Gods Road Colorado Springs, CO 80901-2197, U.S.A.
  • Page 266 Windows and MS Windows are The material contained in U.S. registered trademarks of this document is provided Microsoft Corporation. © Agilent Technologies, Inc. A WARNING notice “as is,” and is subject to 2000-2002 denotes a hazard. It calls being changed, without...

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