TDS7000 Series

Digital Phosphor Oscilloscopes
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Features & Benefits

    • Down to 100 ps Rise Time
    • 4 GHz, 2.5 GHz, 1.5 GHz, 1 GHz and 500 MHz Bandwidth Models
    • Up to 20 GS/s Real-time Sample Rate
    • Up to 32 Megasamples Memory Depth
    • >400,000 Wfms/second Maximum Waveform Capture Rate
    • Exceptional Delta-time Accuracy for High-confidence in Critical Timing Measurements
    • Communications Mask Testing Up to 2.5 Gbps Rates
    • Clock Recovery from Serial Data Streams
    • 32-Bit Serial Trigger for Isolation of Pattern-dependent Effects
    • 10 MHz Time base Reference Input for Enhanced Accuracy and Repeatability
    • MultiView Zoom for Quick Navigation of Long Records
    • Control via Classic Direct Controls, Touch-sensitive Color Display or Mouse Navigation
    • Open Microsoft Windows Environment

Applications

    • Signal Integrity, Jitter and Timing Analysis
    • Verification, Debug and Characterization of Sophisticated Designs
    • Design Development and Compliance Testing of Serial Data Streams Up to 2.5 Gbps Rates for Telecom and Datacom Industry Standards
    • Debugging Telecom, Datacom and Storage Area Network Equipment Designs and High Speed Backplanes
    • Spectral Analysis
    • Disk Drive Analysis
    • Investigation of Transient Phenomena

Unmatched Performance, Simplicity and Connectivity

TDS7000 Series digital phosphor oscilloscopes provide the industry’s best solution to the challenging signal integrity issues faced by designers verifying, characterizing and debugging sophisticated electronic designs. The family features exceptional signal acquisition and analysis, operational simplicity and complete connectivity to your design environment and third party analysis software. The intuitive user interface, developed after months of customer research, was pioneered in the TDS7000 Series and is quickly becoming an industry standard.

Superior Performance Solves Signal Integrity Problems and Speeds Verification and Debug

Signal Fidelity

TDS7000 models, with bandwidths from 500 MHz to 4 GHz and single-shot sample rates to 20 GS/s, easily meet the demands of the latest high-speed logic families and multi-Gigabit communication standards. Acquisition memory up to 32 Megasamples maximizes the value of the high sample rate and ensures that critical events are captured with fine detail. Exceptional deltatime measurement performance provides dependably accurate measurements of the time interval between two events. And, the combination of exceptional trigger and acquisition performance, deep memory and application-specific software make the TDS7000 Series a high-performance jitter and timing analysis tool.

Superior probing performance is critical the fidelity of your measurement system. The P7260 6 GHz active probe faithfully acquires real-time signal information from high-speed designs with high-impedance, high-frequency circuit elements that demand minimal loading. The P7350 5 GHz differential probe provides high CMRR, broad frequency range, and minimal time skew between inputs.

The TDS7154, TDS7254 and TDS7404 models include the TekConnectTM signal interconnect system, which further ensures superior signal fidelity, while offering unparalleled versatility with the world’s widest array of accessory signal acquisition solutions for high-performance, real-time oscilloscopes. This convenient, positive locking interface replaces the traditional BNC connectors and is compatible with the P7000 Series probes. The TCA-1 MEG high-impedance buffer amplifier allows you to make high-voltage and micro-volt differential, current and other general purpose voltage measurements using existing Tektronix probing solutions that require a 1 MΩ termination. In addition, this amplifier provides input coupling (AC/DC/GND) and bandwidth limit (100 MHz, 20 MHz).

Waveform Capture Rate

The successful discovery of intermittent faults and characterization of complex, dynamic signals depend on the amount of time the signal is observed by the oscilloscope. With the TDS7000 Series you can fully visualize signal activity, because third-generation digital phosphor technology (DPXTM ) provides waveform capture rates of more than 400,000 waveforms per second. DPX has saved countless designers minutes, hours, or even days, by quickly revealing the nature of faults so you can apply the TDS7000’s sophisticated triggering to isolate them.

Application-specific Extensions

Optional application-specific measurement and analysis packages extend TDS7000 capabilities. These packages build on the precision acquisition performance of the TDS7000 Series to address the need for application-specific measurements to quickly quantify device and system performance.

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Figure 1. Advanced digital phosphor technology provides unprecedented waveform capture rate, maximizing the probability of discovering hidden faults and revealing dynamic signal behavior.

Applications include:

  • Advanced jitter and timing analysis, including Rj/Dj separation, for high speed clock and data signal characterization
  • Compliance testing for signaling defined in ITU-T G.703 and ANSI T1.102 communications standards
  • Compliance testing for signaling defined in USB1.0 standard and USB2.0 draft standard
  • Disk drive read channel, head and media measurements to IDEMA standards; PRML measurements
  • Power measurement and analysis
  • Compliance testing for 10Base-T, 100Base-TX, and 1000Base-T signals

Why is Delta-time Accuracy a Critical Specification?

Accurate time interval (delta-time) measurements are critical when validating and characterizing design performance. New standards such as PCI Express, HyperTransport and InfiniBand operate at extreme clock speeds and timing margins. Deltatime accuracy is the most important specification for timing measurements because it determines how close these measurements will be to the real values. It takes into account both repeatability and resolution specifications and includes effects from both the horizontal and vertical systems. Delta-time accuracy specifies the deviation from the actual value. It is based upon a number of factors, including sample interval, quantization error, interpolation error, amplifier noise, time base accuracy and sample clock jitter. Because each of these factors contributes to the timing error, the combination of them determines the delta-time accuracy specification. While individual factors such as time base accuracy or sample interval are important, it is the aggregate performance of the entire digitizing system that determines measurement accuracy. Thus, delta-time accuracy is a critical specification for applications such as setup and hold time verification, characterization of skew and jitter analysis where timing is the fundamental characteristic being measured.

Operational Simplicity

Intuitive User Interface

The TDS7000 Series graphical user interface delivers sophisticated capability to advanced users without intimidating occasional users. The front panel includes a complete set of classic analog-style controls for most commonly used features. The combination of a large 10.4 in. (264 mm) touch sensitive display and graphical interface creates a highly visual environment with explicit illustration of instrument features. The waveform display area remains visible even when control windows are displayed, so you won’t miss changes in the waveform when making selections or adjustments. Context-sensitive Help supplements graphic control windows and makes it easy to apply advanced capabilities to solve problems.

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Figure 2. Extensive use of illustrations helps users locate advanced features quickly and apply them with confidence.

The adaptable TDS7000 Series human interface readily supports any operating style and environment. Select traditional instrument-style buttons for navigation or switch to a Microsoft Windows menu bar. You can use the touch screen or a mouse to drag waveform positions, cursor locations and trigger levels. Easily select a waveform area for zooming, histogram analysis or measurement gating using a graphical drag box. Add a mouse, keyboard or other peripherals without powering off the instrument with the USB interface.

Serial Communications Signal Analysis

The serial mask testing option (Option SM) and the serial trigger option (Option ST) add powerful features for the analysis and testing of serial communications signals, including:

  • Mask testing
  • Clock recovery
  • Waveform database acquisition
  • Eye pattern measurements
  • Serial pattern triggering
Mask Testing

Option SM provides a complete portfolio of masks for verifying compliance to serial communications standards up to 2.5 Gbps rates. Easily tailor mask testing to your specific requirements:

  • One-button mask autoset
  • Auto-fit process minimizes hits
  • Mask margin control adjusts tolerance during testing
  • Hit-counting identifies location and degree of failures
  • Test-related actions including notification, logging and hardcopy
  • Built-in mask editing

The TDS7000 includes masks for a wide range of electrical standards, plus optical standards for use with external optical reference receivers (ORR) or O/E converters.*1

Clock Recovery

Option SM*2 includes clock recovery for serial data streams from 1.5 Mbaud to 2.5 Gbaud. With a single connection, trigger on data or recovered clock to identity clock to- data jitter.

Communications Measurements

Option SM also adds a broad suite of eyepattern related measurements fundamental to analysis of serial communications signals, including eye width, eye height, jitter, noise and extinction ratio. These are built on the waveform database acquisition mode which provides information over a much larger sample of data, ensuring stable and accurate results.

*1 The CSA7000 Series of real-time communication signal analyzers includes optical input, ORR filters, clock recovery and serial pattern trigger to provide a versatile solution for verifying compliance to optical and electrical communications standards.

*2 Available on TDS7154, TDS7254, TDS7404 only.

Serial Pattern Trigger

Option ST*2 provides hardware-based serial pattern trigger to discriminate patterns within serial data streams and analyze pattern dependent issues, even on a singleshot basis. Specify patterns with up to 32 bits, including don’t care bits. You gain single connection convenience by applying internal clock recovery. Or, clock the serial trigger system from an external source.

External Time Base Reference

Match stability or synchronize multiple instruments by phase-locking the reference oscillator to an external 10 MHz source. You can also use this phase-lock technique to characterize very low frequency wander and modulation effects.

MultiView Zoom

Use the MultiView zoom to select areas of specific interest, without losing the “big picture” or rapidly navigate and compare multiple waveform regions. With MultiView zoom, lock the relative positions of the selected areas together and scroll through deep records manually or automatically. Control MultiView zoom directly with knobs or the graphical user interface.

Parametric Measurements

The TDS7000 includes a complete parametric measurement system for signal characterization. Select your measurement choice directly from a graphical palette. The ability to quickly reassign measurements to a different waveform simplifies verification tasks. Split cursors and screen cursors make it easy to measure trace-to-trace timing characteristics. You can gather measurement statistics for deeper insight, and measurement results for inclusion in a document or analysis in a spreadsheet.

Powerful Math

With the TDS7000 Series, you can quickly transform raw waveform data into powerful information that is readily interpreted. Define and apply math expressions to waveform data for on-screen results in terms that you can use. Access common waveform math functions with the touch of a button. For advanced applications, create algebraic expressions consisting of waveform sources, math functions, measurement values and scalars with an easy-to-use calculator-style editor.

Enhanced Spectral Analysis

The TDS7000 Series includes a unique spectrum-analyzer style interface for performing frequency domain analysis. Controls such as center frequency, frequency span, resolution bandwidth and reference level provide access to wide or narrow-band frequency, phase and group delay information. A gating function allows you to select only a portion of the time-domain signal for analysis.

Complete Connectivity Adds Virtually Unlimited Analysis Capability

The connectivity of a TDS7000 Series oscilloscope means you can easily document waveforms and test results, enjoy open access to your work environment, run sophisticated third-party analysis software and even create your own customized software programs directly on your oscilloscope.

Built-in applications such as WordPad, Paint and Internet Explorer concurrently maintain lab notes and reference design information while working with the instrument, saving time and reducing errors. Standard network interfaces make file sharing and transporting results easy.

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Figure 3. Leverage standard tools for documentation, analysis, information browsing and communications using open access to the Microsoft Windows desktop.

Advanced Waveform Analysis Made Easy

A comprehensive software infrastructure results in faster, more versatile operations. Move waveform data directly from the acquisition system to analysis applications quickly and easily. Industry-standard protocols, such as VISA and ActiveX Controls, simplify use of Windows applications such as Excel for data analysis and documentation. Or, create custom software to automate multi-step processes in waveform collection and analysis with Visual BASIC, C, C++, MATLAB, HP VEE, and other common development environments.

The TDS7000 Series also supports integration with external PCs and non-Windows hosts. Plug-and-play drivers enable fast and easy communication with LabVIEW, Lab Windows and HP VEE programs using GPIB and LAN connections. Connect applications on a local area network directly to a TDS7000 Series using the included VXI 11.2 server.

View the Microsoft Windows Desktop on a Separate Monitor

TDS7000 can also be expanded with the addition of an external monitor. In dual-monitor mode, the instrument retains live oscilloscope displays while other applications such as publishing, analysis or browsing tools reside on the external monitor.

Observe How the Digital and Analog Worlds Interact

Connecting your oscilloscope to a Tektronix logic analyzer gives you an integrated measurement solution that captures and displays both digital and analog domains in a single time-correlated view.

Use the breakthrough P6860/80 connectorless logic analyzer probe to make both digital and analog measurements.

Characteristics

Vertical System

   

TDS7054

TDS7104

TDS7154

TDS7254

TDS7404

Input Channels

4

4

4

4

4

Analog Bandwidth (–3 dB)

500 MHz

1 GHz

1.5 GHz

2.5 GHz

4 GHz

Calculated Rise Time 10 mV/div to 1 V/div

800 ps

400 ps

240 ps

160 ps

100 ps

Hardware Bandwidth Limits

250 MHz or 20 MHz

Requires TCA-1 MEG

Input Coupling

AC, DC, Gnd

DC, Gnd

Input Impedance

1 MΩ ±0.5% or 50 Ω ±1%

50 Ω ±2.5%

Input Sensitivity, 1 MΩ

1 mV/div to 10 V/div

Input Sensitivity, 50Ω

1 mV/div to 1 V/div

2 mV/div to 1 V/div

Vertical Resolution

8-Bit (>11-Bit with averaging)

8-Bit (>11-Bit with averaging)

Max Input Voltage, 1 MΩ

±150 V CAT I Derate at 20 dB/decade to 9 VRMS above 200 kHz

Max Input Voltage, 50Ω

5 VRMS, with peaks less than ±30 Volts

Determined by TekConnect™ Accessory

DC Gain Accuracy

1%

±(2% + (2% * offset))

Offset Range

   

1 mV/div to 100 mV/div: ±1 V

2 mV to 50 mV/div: ±0.5 V

   

101 mV/div to 1 V/div: ±10 V

50.5 mV to 99.5 mV: ±0.25 V

   

1.01 V/div to 10 V/div: ±100 V

100 mV to 500 mV: ±5 V

505 mV to 1 V/div: ±2.5 V

Channel-to-channel Isolation Any Two Channels

at Equal Vertical Scale Settings

≥100:1 at 100 MHz and ≥30:1

at the Rated Bandwidth

≥100:1 at <2.5 GHz and ≥40:1 at 4 GHz

Note: Typical system bandwidth of TDS7404 with P7240: 4 GHz.

Note: Typical system bandwidth of TDS7404 with P7330: 3.5 GHz.

Time Base System

   

TDS7054/TDS7104

TDS7154/TDS7254/TDS7404

Time Base Range

200 ps/div to 40 s/div

50 ps to 10 s/div

Time Base Delay Time Range

16 ns to 250 s

16 ns to 250 s

Channel-to-channel Deskew Range

±25 ns

±25 ns

Delta Time Measurement Accuracy

±((0.06/sample rate) +

(15 ppm * reading)) RMS

±((0.06/sample rate) +

(2.5 ppm * reading)) RMS

Trigger Jitter (RMS)

8 psRMS (typical) 6 psRMS (typical)

   

Long Term Sample Rate and Delay Time Accuracy

±15 ppm over ≥1 ms interval

±2.5 ppm over any ≥100 ms interval

Acquisition System

Real-time Sample Rates

TDS7054

TDS7104

TDS7154/TDS7254/TDS7404

1 channel (max)

5 GS/s

10 GS/s

20 GS/s

2 channels (max)

5 GS/s

5 GS/s

10 GS/s

3 to 4 channels (max)

2.5 GS/s

2.5 GS/s

5 GS/s

Equivalent Time Sample Rate (max)

250 GS/s

250 GS/s

1 TS/s

Maximum Record Length per Channel

with Standard Memory

2 M (1-CH.), 1 M (2-CH.), 500 k (4-CH.)

   with Memory Opt. 2M

8 M (1-CH.), 4 M (2-CH.), 2 M (4-CH.)

   with Memory Opt. 3M

16 M (1-CH.), 8 M (2-CH.), 4 M (4-CH.)

   with Memory Opt. 4M

   

   

32 M (1-CH.), 16 M (2-CH.), 8 M (4-CH.)

Maximum Duration at Highest Real-time Resolution (1-CH)

   

TDS7054

TDS7104

TDS7154/TDS7254/TDS7404

Time Resolution (Single-shot)

200 ps (5 GS/s)

100 ps (10 GS/s)

50 ps (20 GS/s)

Max Duration with Standard Memory

400 μs

200 μs

100 μs

Max Duration with Opt. 2M

1.6 ms

800 μs

400 μs

Max Duration with Opt. 3M

3.2 ms

1.6 ms

800 μs

Max Duration with Opt. 4M

   

   

1.6 ms

Acquisition Modes

   

TDS7054/TDS7104

TDS7154/TDS7254/TDS7404

FastAcq Acquisition

FastAcq optimizes the instrument for analysis of dynamic signals and capture of infrequent events

Maximum FastAcq Waveform Capture Rate

>200,000 wfms/sec

>400,000 wfms/sec

Waveform Database (requires Option SM)

Accumulate Waveform Database providing three-dimensional array of amplitude, time and counts

Sample

Acquire sampled values

Peak Detect

Captures narrow glitches at all real-time sampling rates

Minimum Peak Detect Pulse Width

≤1 ns

400 ps

Averaging

From 2 to 10,000 waveforms included in average

Envelope

From 2 to 2x109 waveforms included in min-max envelope

Hi-res

Real-time boxcar averaging reduces random noise and increases resolution

FastFrame™ Acquisition

Acquisition memory divided into segments; maximum trigger rate >160,000 waveforms per second.

Time of arrival recorded with each event

Trigger System

   

TDS7054

TDS7104

TDS7154/TDS7254/TDS7404

Sensitivity

Internal DC Coupled

0.35 div DC to 50 MHz

increasing to 1 div at 500 MHz

0.35 div DC to 50 MHz

increasing to 1 div at 1 GHz

0.35 div DC to 50 MHz increasing to 1.5 div at 3 GHz

TDS7404: 2.7 div at 4 GHz (typical)

External (Auxiliary Input)

400 mV from DC to 50 MHz

increasing to 750 mV at 100 MHz

250mV from DC to 50 MHz

increasing to 500mV at 100 MHz

250mV from DC to 50 MHz increasing

to 350mV at 500 MHz

Main Trigger Modes

Auto, Normal and Single

Trigger Sequences

Main, Delayed by Time, Delayed by Events. All sequences can include separate horizontal delay

after the trigger event to position the acquisition window in time

Trigger Characteristics

Standard Trigger Types

Edge, Glitch, Runt, Width, Transition Time, Timeout, Pattern, State, Setup/Hold

Communications-related

Support for AMI, HDB3, BnZS, CMI, MLT3 and NRZ encoded communications signals.

Triggers (requires Option SM)

Select among isolated positive or negative one, zero pulse form or eye patterns as applicable to standard.

Serial Pattern Trigger (requires Option ST)

   

   

32-Bit serial word recognizer, bits specified in binary (high, low, don’t care) or hex format. Trigger on NRZ-encoded data up to 1.25 GBaud.

Trigger Level Range

Internal

±12 divisions from center of screen

External (Auxiliary In)

±8 V

Line

fixed at 0 V

Trigger Coupling

DC, AC (attenuates <60 Hz), HF Rej (attenuates >30 kHz), LF Rej (attenuates <80 kHz),

Noise Reject (reduces sensitivity)

Trigger Holdoff Range

250 ns minimum to 12 s maximum

Trigger Modes

Edge

Positive or negative slope on any channel or front panel auxiliary input. Coupling includes DC, AC, noise reject, HF reject and LF reject.

Glitch

Trigger on or reject glitches of positive, negative or either polarity. Minimum glitch width is 1.0 ns with 200 ps resolution.

Width

Trigger on width of positive or negative pulse either within or out of selectable time limits (1 ns to 1 s).

Runt

Trigger on a pulse that crosses one threshold but fails to cross a second threshold before crossing the first again. Optional time qualification.

Timeout

Trigger on an event which remains high, low or either, for a specified time period, selectable from 1 ns to 1 s with 200 ps resolution.

Transition

Trigger on pulse edge rates that are faster or slower than specified. Slope may be positive, negative or either.

Setup/Hold

Trigger on violations of both setup time and hold time between clock and data present on any two input channels.

Pattern

Trigger when pattern goes false or stays true for specified period of time. Pattern (AND, OR, NAND, NOR) specified for four input channels defined as HIGH, LOW or Don’t Care.

State

Any logical pattern of channels (1, 2, 3) clocked by edge on channel 4. Trigger on rising or falling clock edge.

Trigger Delay by Time

16 ns to 250 seconds.

Trigger Delay by Events

1 to 10,000,000 Events.

Waveform Measurements

Amplitude

Amplitude, High, Low, Maximum, Minimum, Peak to Peak, Mean, Cycle Mean, RMS, Cycle RMS, Positive Overshoot, Negative Overshoot.

Time

Rise time, Fall time, Positive Width, Negative Width, Positive Duty Cycle, Negative Duty Cycle, Period, Frequency, Delay.

Combination

Area, Cycle Area, Phase, Burst Width.

Histogram-related

Waveform count, Hits in box, Peak hits, Median, Maximum, Minimum, Peak to Peak, Mean (μ), Standard Deviation (σ), μ+1σ, μ+2σ, μ+3σ.

Waveform Processing/Math

Algebraic Expressions

Define extensive algebraic expressions including waveforms, scalars and results of parametric measurements e.g. (Integral (CH.1-Mean(CH.1))*1.414).

Arithmetic

Add, subtract, multiply, divide waveforms and scalars.

Relational

Boolean result of comparison >, <, >=, <=, ==, !=.

Calculus

Integrate, differentiate.

Frequency Domain Functions

Spectral magnitude and phase, real and imaginary spectra.

Vertical Units

Magnitude: Linear, dB, dBm; Phase: Degrees, radians.

Window Functions

Rectangular, Hamming, Hanning, Kaiser-Bessel, Blackman-Harris, Gaussian, Flattop2, Tek Exponential.

Waveform Definition

As arbitrary math expression.

Display Characteristics

Display Type

Liquid crystal active-matrix color display.

Display Size

   

   Width:

211.2 mm (8.32 in.);

   Height:

158.4 mm (6.24 in.);

   Diagonal:

264 mm (10.4 in.).

Display Resolution

640 horizontal x 480 vertical pixels.

Waveform Styles

Vectors, Dots, Variable Persistence, Infinite Persistence.

Computer System and Peripherals

CPU

Intel Celeron processor, 850 MHz.

PC System Memory

512 MB.

Hard Disk Drive

Rear-panel, removable hard disk drive, 20 GB capacity.

Floppy Disk Drive

Front-panel 3.5 in floppy disk drive, 1.44 MB capacity.

CD-R/W Drive

Rear-panel CD-R/W drive with CD creation software application.

Mouse

Logitech thumb wheel model included, USB interface.

Keyboard

For small keyboard (fits in pouch); PS-2 interface. Order 118-9402-00

For full-size keyboard; USB interface and hub. Order 119-6297-00

Input/Output Ports

Probe Compensator Output

Front panel BNC connector, requires Probe Cal-Deskew Fixture (included) for probe attachment. Amplitude 200 mV ±20% into a ≥50 Ω load, frequency 1 kHz ±5%.

Analog Signal Output Amplitude

Front-panel BNC connector, provides a buffered version of the signal that is attached to the Ch 3 input when Ch 3 is selected as trigger source. 20 mV/div ±20% into a 1 MΩ load, 10 mV/div ±20% into a 50 Ω load.

Analog Signal Output Bandwidth, Typical

TDS7054, TDS7104: 100 MHz into a 50 Ω load. TDS7154/TDS7254/TDS7404: 1 GHz into a 50 Ω load.

External Time Base Reference In

Rear-panel BNC connector, time base system can phase-lock to external 10 MHz reference.

Time Base Reference Out

Rear-panel BNC connector, accepts TTL-compatible output of internal 10 MHz reference oscillator.

Auxiliary Output Levels

Front-panel BNC connector, provides a TTL-compatible, polarity switchable pulse when the oscilloscope triggers.

Parallel Port

IEEE 1284, DB-25 connector.

Audio Ports

Miniature phone jacks for stereo microphone input and stereo line output.

USB Port

Allows connection or disconnection of USB keyboard and/or mouse while oscilloscope power is on.

Keyboard Port

PS-2 compatible.

Mouse Port

PS-2 compatible.

LAN Port

RJ-45 connector, supports 10Base-T and 100Base-T.

Serial Port

DB-9 COM1 port.

SVGA Video Port

DB-15 female connector; connect a second monitor to use dual-monitor display mode. Supports basic requirements of PC99 specifications.

GPIB Port

IEEE 488.2 standard.

Scope VGA Video Port

DB-15 female connector, 31.6 kHz sync, EIA RS-343A compliant, connect to show the oscilloscope display, including live waveforms on an external monitor or projector.

Power Source

Power

100 to 240 VRMS, ±10%, 50/60 Hz;

115 VRMS ±10%, 400 Hz;

CAT II, <300 W (450 VA).

Physical Characteristics

Benchtop Configuration

Dimensions

mm

in.

Height

277

10.9

Width

455

17.9

Depth

425

16.75

Weight

kg

lb.

Net

18

39

Shipping

37

80

Rackmount Configuration

Dimensions

mm

in.

Height

277

10.5

Width

502

19.75

Depth

486

19.125

Weight

kg

lb.

Net

19

41

Kit

5.6

12.25

Mechanical

Cooling – Required

Clearance

mm

in.

Top 0 or

>76

0 or >3

Bottom

0

0

Left side

76

3

Right side

76

3

Front

0

0

Rear

0

0

Environmental

Temperature

Operating

0ºC to +50ºC, excluding floppy disk and CD-R/W drives;

+10ºC to +45ºC, including floppy disk and CD-ROM drives.

Nonoperating

–22ºC to +60ºC.

Humidity

Operating

20% to 80% relative humidity with a maximum wet bulb temperature of +29ºC at or below +50ºC, noncondensing. Upper limit derated to 25% relative humidity at +50ºC.

Nonoperating

With no diskette in floppy disk drive. 5% to 90% relative humidity with a maximum wet bulb temperature of +29ºC at or below +60ºC, noncondensing. Upper limit derated to 20% relative humidity at +60ºC.

Altitude

Operating

10,000 ft. (3,048 m).

Nonoperating

40,000 ft. (12,190 m).

Random Vibration

Operating

0.000125 G2/Hz from 5 to 350 Hz, –3 dB/octave from 350 to 500 Hz, 0.0000876 G2/Hz at 500 Hz. Overall level of 0.24 GRMS.

Nonoperating

0.0175 G2/Hz from 5 to 100 Hz, –3 dB/octave from 100 to 200 Hz, 0.00875 G2/Hz from 200 to 350 Hz, –3 dB/octave from 350 to 500 Hz, 0.006132 G2/Hz at 500 Hz. Overall level of 2.28 GRMS.

Electromagnetic Compatibility

89/336/EEC.

Safety

UL 3111-1, CSA1010.1, EN61010-1, IEC 61010-1.

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