CSA8000B

Communications Signal Analyzer
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Features & Benefits

  • Automatic Communication Measurements (RZ and NRZ)
    • Q-factor
    • Extinction Ratio
    • Optical Power
    • Signal-to-Noise Ratio
    • Jitter
  • Wide Bandwidth (DC to 70+ GHz*1 with up to 12.5 GHz Trigger)
  • Automatic ITU/ANSI Mask Testing
  • Normal, Infinite, Variable Persistence and Color Graded Display Modes
  • Intuitive User Interface
    • Large Color Display (10 in.)
    • MS Windows Operating System
  • Modular Architecture
  • Fast Acquisition Rate
  • Excellent Signal Fidelity (Jitter <800 fsec RMS - Typical)
  • FrameScan™ Acquisition Mode
    • Isolate Data Dependent Faults
    • Examine Low-power PRBS Signals
    • Eliminate Random Noise and Jitter Via Averaging
  • Windows 2000 for enhanced network security

Applications

  • Manufacturing/Testing for ITU/ANSI Conformance
  • Designing/Verification of Telecom and Datacom Elements

*1 Bandwidth is determined by plug-in modules and may exceed 70 GHz should higher speed modules become available in the future.

Communications Signal Analysis Solutions

Specifically designed for high-performance communications applications, the CSA8000B Communications Signal Analyzer is the ideal tool for design evaluation and manufacturing test of datacom and telecom components, transceiver subassemblies and transmission systems.

The CSA8000B generates measurement results, not just raw data, with time and amplitude histograms, mask testing and statistical measurements. It provides a communications-tailored measurement set that includes jitter, noise, duty cycle, overshoot, undershoot, extinction ratio, Q-factor, mean optical power and amplitude measurements for both RZ and NRZ signals.

In addition, mask testing of SDH/SONET, Gigabit Ethernet and other standards simplifies conformance testing.

A large, full color display helps you to discriminate waveform details. Color-grading of waveform data adds a third dimension, sample density, to your signal acquisitions and analyses.

Modularity and Flexibility

The CSA8000B supports a large and growing family of optical and electrical plug-in modules. This modular architecture lets you configure the instrument with the right features for your application both now and in the future.

The available optical modules provide complete optical test solutions for both telecom (155 Mb/s to 43 Gb/s) and datacom (Fibre Channel, InfiniBand and Gigabit Ethernet) applications.

Each optical module includes all of the elements necessary for communications testing, including an optical to electrical converter, an average power monitor, up to five data rate filters, a full bandwidth path and a low-noise electrical sampler. In addition, clock recovery is available as an option for most optical modules.

The electrical plug-ins include a variety of modules with bandwidths up to 70+ GHz and specialized features such as Time Domain Reflectometry (TDR). High bandwidth probes are also available for constructing a total acquisition and measurement solution.

Superior Performance

With its industry-best horizontal timebase stability, trigger jitter, signal sensitivity and noise performance, the CSA8000B ensures the most accurate acquired signal for high-speed optical communications testing.

The CSA8000B's multi-processor architecture, with dedicated per channel digital signal processors (DSP), also provides industry-best waveform acquisition rates that shorten test times.

The CSA8000B's FrameScan™ acquisition mode can be used with a variety of BERTs and/or protocol analyzers to isolate pattern dependent effects in transmitters or show the bit sequence leading up to a mask violation. FrameScan acquisition mode also allows averaging of eye diagrams. This can be used to extract a clean eye diagram from noisy low-level signals.

8000 Series Sampling Oscilloscope Platform

The CSA8000B is built on Tektronix' sampling oscilloscope platform that combines familiar MS Windows-based PC technologies with world-class waveform acquisition technology.

This platform provides a wide array of standard instrumentation and communications interfaces (such as GPIB, Parallel Printer Port, RS-232-C and USB Serial Ports and an Ethernet LAN connection). In addition, the platform includes several mass storage devices (floppy disk, removable hard drive and CD-ROM). Gated triggering, a feature that allows the exclusion of selected time periods from being measured, is offered as an option.

Finally, because the system supports an Open Windows environment, new levels of data analysis can be done directly on the instrument using commercially available software packages.

Additionally, TekVISA™, a standard software accessory, allows the instrument to be placed under the control of software applications (e.g., LabView, LabWindows, Visual Basic, Microsoft Excel, C, etc.) running on the instrument, or on external PC workstations network connected to the instrument, without the need for a GPIB hardware interface. Plug and play drivers for LabView and other programs are also supplied.

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8000 Series Sampling Oscilloscope Optical Modules

80C01 Multi-rate Telecom Sampling Module - The 80C01 module supports waveform conformance testing of long-wavelength (1100 to 1650 nm) signals at 622, 2488 Mb/s and 9.953 Gb/s as well as general-purpose testing with up to 20 GHz optical bandwidth. With its clock recovery option, the 80C01 provides testing solutions for 622 and 2488 Mb/s telecom applications.

80C02 High-performance Telecom Sampling Module - The 80C02 module is optimized for testing of long-wavelength (1100 to 1650 nm) signals at 9.953 Gb/s (SONET OC-192/SDH STM-64). With its high optical bandwidth of 30 GHz (typical), it is also well-suited for general-purpose high-performance optical component testing. The 80C02 can be optionally configured with clock recovery that supports 9.953 Gb/s telecom standards.

80C07B Multi-rate, Datacom & Telecom Optical Sampling Module - The 80C07B module is a broad wavelength (700 to 1650 nm) multi-rate optical sampling module optimized for testing datacom/telecom signals from 155 to 2500 Mb/s. With its amplified O/E converter design, this module provides excellent signal-to-noise performance, allowing users to examine low-power optical signals. The 80C07B can be optionally configured with clock recovery that supports 155, 622, 1063, 1250, 2125, 2488, 2500 and 2666 Mb/s rates.

80C08C Multi-rate, Datacom & Telecom Optical Sampling Module with 10 GbE Forward Error Correction - The 80C08C module is a broad wavelength (700 to 1650 nm) multi-rate optical sampling module providing datacom rate testing for 10GbE applications at 9.953, 10.3125, 11.0957 Gb/s and 10G Fibre Channel applications at 10.51875 Gb/s. The 80C08C also provides telecom rate testing at 9.953, 10.664, and 10.709 Gb/s. With its amplified O/E converter design, this module provides excellent signal-to-noise performance and high optical sensitivity, allowing users to examine low-power level optical signals. The 80C08C can be optionally configured with clock recovery options that can support any standard or user defined rate in the continuous range from 9.8 to 12.6 Gb/s.

80C10 65 GHz 40 Gbps Optical Sampling Module with 43 Gbps ITU-T G.709 Forward Error Correction - The 80C10 module provides integrated and selectable reference receiver filtering, enabling conformance testing at either 1310 nm or 1550 nm for 39.813 Gbps (OC-768/STM-256) and 43.018 Gbps (43 Gbps ITU-T G.709 FEC) rates. In addition to the filter rates, the user may also choose selectable bandwidths of 30 GHz or 65 GHz for optimal noise vs. bandwidth performance for accurate signal characterization.

80C11 Multi-rate, Datacom & Telecom Optical Sampling Module - The 80C11 module is a long wavelength (1100 to 1650 nm) multi-rate optical sampling module optimized for testing 10 Gb/s datacom and telecom standard rates at 9.953, 10.3125, 10.51875, 10.664, 10.709, and 11.0957 Gb/s. With its high optical bandwidth of up to 30 GHz (typical) it is well-suited for general purpose high-performance 10 Gb/s optical component testing. The 80C11 can be optionally configured with clock recovery options that can support any standard or user defined rate in the continuous range from 9.8 to 12.6 Gb/s.

80C12 Multi-rate, Datacom & Telecom Optical Sampling Module - The 80C12 module is a broad wavelength (700 to 1650 nm) multi-rate optical sampling module providing multi-rate telecom and datacom testing. This highly flexible module can be configured to support either lower data rate applications (1 to 4 Gb/s) or a wide variety of 10Gb/s applications. The low data rate applications include: 1, 2, and 4 Gb/s FibreChannel and “by 4” wavelength division multiplex standards such as 10GBase-X4 and 4-Lane 10 Gb/s FibreChannel. The supported 10Gb/s application includes both datacom and telecom application. The supported 10Gb/s datacom applications include 10GbE applications at 9.953, 10.3125, 11.0957 Gb/s and 10G Fibre Channel applications at 10.51875 Gb/s. The 80C12 also provides telecom rate testing at 9.953, 10.664, and 10.709 Gb/s. With its amplified O/E converter design, this module provides excellent signal-to-noise performance and high optical sensitivity, allowing users to examine low-power level optical signals. Clock recovery for the 80C12 is provided via the 80A05 (sold separately).

8000 Series Sampling Oscilloscope Electrical Modules

80E01 Sampling Module - The 80E01 is a single-channel, 50 GHz bandwidth sampling module. The 80E01 has a measured bandwidth of 50 GHz or more and a calculated rise time of 7.0 ps or less. Displayed noise is typically 1.8 mVRMS. The front-panel connector is female 2.4 mm and an adapter is provided (2.4 mm male to 2.92 mm female) to maintain compatibility with SMA connector systems.

80E02 Low-noise Sampling Module - The 80E02 is a dual-channel, 12.5 GHz sampling module specifically designed for low-noise measurements in digital communications and device characterization applications. It provides an acquisition rise time of 28 ps and typically 400 μVRMS of displayed noise. The 80E02 is the ideal instrument for low-noise applications. Common applications for the 80E02 are capturing and displaying switching characteristics of high-speed communications circuits, making accurate statistical measurements of signal noise and signal timing jitter or obtaining stable timing measurements of fast digital ICs.

80E03 Sampling Module - The 80E03 is a dual-channel, 20 GHz sampling module. This sampling module provides an acquisition rise time of 17.5 ps.

80E04 TDR Sampling Module - The 80E04 is a dual-channel, 20 GHz sampling module with TDR capability. This sampling module provides an acquisition rise time of 17.5 ps, with a typical 20 GHz equivalent bandwidth. The TDR feature provides high resolution with true differential capability and fast 35 ps reflected rise time of the TDR slope.

80E06 70+ GHz Sampling Module - The 80E06 is a single channel, 70+ GHz (typical bandwidth) sampling module with 5.0 ps calculated rise time. Typical RMS noise is 1.8 mV. This sampling module provides a 1.85 mm (Type V) front-panel connector and a precision adapter to 2.92 mm with a 50 Ω SMA termination. 1 meter or 2 meter length Extender Cables can be ordered for remote operation of the sampling module from the sampling oscilloscope mainframe.

80A05 Electrical Clock Recovery Module - The 80A05 enables clock recovery for electrical signals, as well as internal triggering on the recovered clock. The module recovers clocks from serial data streams for all of the most common electrical standards in the 50 Mb/s to 4.26 Gb/s range. Option 10G adds support for standard rates up to 12.6 Gb/s. The module accepts either single-ended or differential signals at its input, providing both single-ended and differential clock recovery. This module also serves as the clock recovery module for the 80C12.

Characteristics

Signal Acquisition

Acquisition Modes - Sample (normal), envelope and average.

Number of Sampling Modules Accommodated - Up to four, dual-channel electrical and two, single-channel optical sampling modules.

Number of Simultaneously Acquired Inputs - Eight channels maximum (eight electrical or two optical and six electrical).

Vertical Systems

Rise Time/Bandwidth - Determined by the sampling modules used.

Vertical Resolution - 14 bits over the sampling modules' dynamic range.

Horizontal System

Main and Magnification View Timebases - 1 ps/div to 5 ms/div in 1-2-5 sequence or 1 ps increments.

Maximum Trigger Rate - 200 kHz.

Typical Acquisition Rate - 150 Ksamples/sec per channel.

Time Interval Accuracy - Horizontal scale: <21 ps/div: 1 ps + 1% of interval.

Horizontal scale: ≥21 ps/div:

8 ps +0.1% of interval (short-term optimized mode).

8 ps + 0.01% of interval (locked to 10 MHz mode).

Horizontal Deskew Range: -500 ps to +100 ns on any individual channel in 1 ps increments.

Record Length - 20, 50, 100, 250, 500, 1000, 2000 or 4000 samples.

Magnification Views - In addition to the main timebase, the CSA8000B supports two magnification views. These magnifications are independently acquired using separate timebase settings which enable higher resolution sampling.

Trigger System

Trigger Sources - External direct trigger.

External pre-scaled trigger.

Internal clock trigger: Internally connected to direct trigger.

Clock recovery triggers (from optical sampling modules) - internally connected to pre-scaled trigger.

Trigger Sensitivity -

External direct trigger output:

50 mV, DC -4 GHz (typical).

100 mV, DC -3 GHz (guaranteed).

Pre-scaled trigger input:

800 mV, 2 to 3 GHz (guaranteed).

600 mV, 3 to 10 GHz (guaranteed).

1000 mV, 10 to 12, 5 GHz (typical).

Jitter -

Short-term jitter optimized mode:

≤0.8 ps RMS +5 ppm (typical).

 ≤1.2 ps RMS +10 ppm (max.).

Locked to 10 MHz reference:

1.6 ps RMS+0.04 ppm of position (typical).

≤2.5 ps RMS +0.01 ppm of position (max.).

Internal Clock - Adjustable from 25 to 200 kHz (drives TDR, internal clock output and calibrator).

Trigger Level Range - ±1.0 V.

Trigger Input Range - ±1.5 V.

Trigger Holdoff - Adjustable 5 μs to 100 ms in 2 ns increments.

External Trigger Gate (optional) - TTL logic 1 enables gate, a TTL logic 0 disables gate, maximum non-destruct input level ±5 V.

Display Features

Touch Screen Display - 10.4 in. diagonal, color.

Colors - 16,777,216 (24 bits).

Video Resolution - 640 horizontal by 480 vertical displayed pixels.

Math/Measurement System Measurements - The CSA8000B supports up to eight simultaneous measurements, updated three times per second with optional display of per measurement statistics (min, max, mean and standard deviation).

Measurement Set - Automated Measurements include RZ, NRZ, and Pulse signal types and the following:

Amplitude Measurements: High, Low, Amplitude, Max, Mid, Min, +Width, Eye Height, Eye Opening Factor, Pulse Symmetry, Peak-to-Peak, Pk-Pk, +Overshoot, -Overshoot, Mean, +Duty Cycle, Cycle Mean, RMS, Cycle RMS, AC RMS, Gain, Extinction Ratio (Ratio, %, dB), Suppression Ratio (Ratio, %, dB), Peak to Peak Noise, RMS Noise, Q-Factor, SNR, Average Optical Power, (dBm, watts), Phase, Optical Modulation Amplitude.

Timing Measurements: Rise, Fall, Period, Bit Rate, Bit Time, Frequency, Crossing (%, Level, Time), +Cross, -Cross, Jitter (pk-pk, RMS), Eye Width, +Width, -Width, Burst Width, +Duty Cycle, -Duty Cycle, Duty Cycle Distortion, Delay, Phase.

Area Measurements: Area, Cycle Area.

Cursors - Dot, vertical bar and horizontal bar cursors.

Waveform Processing - Up to eight math waveforms can be defined and displayed using the following math functions: Add, Subtract, Multiply, Divide, Average, Differentiate, Exponentiate, Integrate, Natural Log, Log, Magnitude, Min, Max, Square Root and Filter.

In addition, measurement values can be utilized as scalars in math waveform definitions.

Mask Testing - In addition to user-defined masks, the following predefined masks are built-in:

Standard

Rate (Gb/s) unless otherwise noted

STM-0/OC-1

51.84 Mb/s

STM-1/OC-3

155.52 Mb/s

STM-4/OC-12

622.08 Mb/s

STM-16/OC-48

2.4883

STM-64/OC-192

9.9533

STM-256/OC-768

39.81312

FEC 2.666

2.66606

FEC 10.66

10.6642

FEC 10.709

10.709

FEC 43 Gb/s G.709

43.018

FEC 42.66

42.656914

FC-10 G

10.51875

FC-133

132.813 Mb/s

FC-266

265.6 Mb/s

FC-531

531.2 Mb/s

FC-1063

1.0625

FC-2125

2.125

FC-4250

4.250

10 G BASE-X4

3.125

10 G BASE-W

9.95328

10 G BASE-R

10.3125

10 GbE FEC

11.097

InfiniBand

2.500

Gigabit Ethernet

1.2500

Power Requirements

Line Voltage and Frequency - 100 to 240 VAC ±10% 50/60 Hz.

115 VAC ±10% 400 Hz.

Environmental

Temperature - Operating: +10 °C to +40 °C.

Nonoperating: -22 °C to +60 °C.

Relative Humidity - Operating: Floppy disk and CD-ROM not installed:

20% to 80% at or below 40 °C (upper limit derates to 45% relative humidity at 40 °C).

Nonoperating: 5% to 90% at or below 60 °C (upper limit de-rates to 20% relative humidity at +60 °C).

Altitude - Operating: 3,048 m (10,000 ft.).

Nonoperating: 12,190 m (40,000 ft.).

Electromagnetic Compatibility - 89/336/EEC.

Safety - UL3111-1, CSA1010.1, EN61010-1, IEC61010-1.

Physical Characteristics for Optical Sampling Modules

   

Dimensions (mm/inches)

Weight (kg/lb)

   

Width

Height

Depth

Net

80C01

165/6.5

25/1.0

305/12.0

<2.61/<5.75

80C02

165/6.5

25/1.0

305/12.0

<2.61/<5.75

80C07B

165/6.5

25/1.0

305/12.0

<1.36/<3.0

80C08C

165/6.5

25/1.0

305/12.0

<1.22/<2.7

80C10

165/6.5

25/1.0

305/12.0

>2.61/>5.75

80C11

165/6.5

25/1.0

305/12.0

<1.22/<2.7

80C12

165/6.5

25/1.0

305/12.0

<2.61/<5.75

Optical Sampling Module Characteristics (Refer to Optical Sampling Module User Manual for more detailed information)

   

Application Type

Standard and supported data filtering rates

Number of Input Channels

Effective Wavelength Range

Calibrated Wavelengths

80C01

Tributary Telecom

OC-12/STM-4 (622 Mb/s), OC-48/STM-16 (2.488 Gb/s), OC-192/STM-64 (9.953 Gb/s)

1

1100 nm to 1650 nm

1310 nm and 1550 nm (±20 nm)

80C02

10 Gb/s Telecom

OC-192/STM-64 (9.953 Gb/s)

10GBASE-W (9.953 Gb/s)

1

1100 nm to 1650 nm

1310 nm and 1550 nm (±20 nm)

80C07B

Tributary Datacom/Telecom

Standard Included: OC-48/STM-16 (2.488 Gb/s), Infiniband, 2 GbE (2.500 Gb/s);Optional (choose any two): OC-3/STM-1 (155 Mb/s), OC-12/STM-4 (622 Mb/s), FibreChannel (1.063 Gb/s), GbE (1.250 Gb/s), 2G FibreChannel (2.125 Gb/s)

1

700 nm to 1650 nm

780 nm, 850 nm, 1310 nm, and 1550 nm (±20 nm)

80C08C

10 Gb/s Datacom/Telecom

OC-192/STM-64 (9.953 Gb/s), 10GBASE-W (9.953 Gb/s), 10GBASE-R (10.31 Gb/s), 10G Fibre Channel (10.52 Gb/s), ITU-T G.975 FEC (10.664 Gb/s), ITU-T G.709 (10.709 Gb/s),10 GbE FEC (11.1 Gb/s)

1

700 nm to 1650 nm

780 nm, 850 nm, 1310 nm, and 1550 nm (±20 nm)

80C10

40 Gb/s Telecom

OC-768/STM-256 (39.813 Gb/s),ITU-T G.709 FEC (43.018 Gb/s)

1

1310 nm and 1550 nm

1310 nm and 1550 nm (±20 nm)

80C11

10 Gb/s Datacom/Telecom

OC-192/STM-64 (9.953 Gb/s), 10GBASE-W (9.953 Gb/s), 10GBASE-R (10.31 Gb/s), 10G Fibre Channel (10.52 Gb/s), ITU-T G.975 FEC (10.664 Gb/s), ITU-T G.709 (10.709 Gb/s), 10 GbE FEC (11.1 Gb/s)

1

1100 nm and 1650 nm

1310 nm and 1550 nm (±20 nm)

80C12

FibreChannel, Datacom rates between 2.5Gb/s and 10Gb/s.

Option 10G: 10Gb/s multistandard low cost

Option 10G: OC192/STM64 (9.953 Gb/s), 10GBaseW (9.953 Gb/s),10GBaseR (10.31 Gb/s),10 GFC (10.51 Gb/s), G.975 FEC (10.66 Gb/s), G.709 FEC (10.71 Gb/s), 10 GBE FEC (11.10 Gb/s).

Option F1: 1.063 Gb/s, 2.125 Gb/s, and 4.25 Gb/s FC.

Option F2: 2.125 Gb/s, 4.25 Gb/s FC, 9 GHz.

Option F3: 1.063 Gb/s, 2.125 Gb/s FC, 9 GHz.

Option F4: 2.125 Gb/s, 10GBase-LX4, 3.188Gb/s, 4.25 Gb/s FC.

Option F5: 10GBase-LX4, 3.188Gb/s, 4.25 Gb/s FC, 9 GHz.

Option F6: 2.125 Gb/s FC, 10GBase-LX4, 3.188Gb/s, 9 GHz.

Option FC: 11GBase-LX4 filter, 3.188Gb/s, 3.318 GHz, 9 GH

1

700 nm to 1650 nm

850, 1310 and 1550 nm (±20 nm)

Optical Sampling Module Characteristics (continued)

   

Clock Recovery (Optional)

Clock Recovery Outputs

Unfiltered Optical Bandwidth*1

Absolute Maximum Nondestructive Optical Input

Internal Fiber Diameter

80C01

Option CR: 622 Mb/s, 2.488 Gb/s

±Clock, ±Data

20 GHz

5 mW average; 10 mW peak power at wavelength of highest relative responsivity

9 μm/125 μm single-mode

80C02

Option CR: 9.953 Gb/s

Clock, Clock/16, Data

28 GHz

5 mW average; 10 mW peak power at wavelength of highest relative responsivity

9 μm/125 μm single-mode

80C07B

Option CR1: 155 Mb/s, 622 Mb/s, 1.063 Gb/s, 1.250 Gb/s, 2.125 Gb/s, 2.488 Gb/s, 2.500 Gb/s, 2.666 Gb/s

±Clock, ±Data

2.5 GHz

5 mW average; 10 mW peak power at wavelength of highest responsivity

62.5 μm/125 μm multi-mode

80C08C

Option CR1: 9.953 Gb/s, 10.31 Gb/s;

Option CR2: 10.31 Gb/s, 10.52 Gb/s;

Option CR4: Continuous from 9.8 Gb/s to 12.6 Gb/s

Clock, Clock/16

10 GHz

1 mW average; 10 mW peak power at wavelength of highest responsivity

single-mode and multi-mode fibers up to core diameter of 62.5 μm

80C10

Future Upgradeable

Future

65 GHz

20 mW average; 60 mW peak power at wavelength of highest relative responsivity

9 μm/125 μm single-mode

80C11

Option CR1: 9.953 Gb/s;

Option CR2: 9.953 Gb/s, 10.664 Gb/s;

Option CR3: 9.953 Gb/s, 10.709 Gb/s;

Option CR4: Continuous between 9.8 Gb/s to 12.6 Gb/s

CR1: Clock, Clock/16, Data;

CR2, CR3, CR4: Clock, Clock/16

28 GHz

5 mW average; 10 mW peak power at wavelength of highest responsivity

9 μm/125 μm single-mode

80C12

Provided by separately sold 80A05 (50 Mb/s to 12.6 Gb/s)

(Clk/16, 10G Clk)

4 to 10 Gb/s depending on option

1mW average; 10 mW peak power at wavelength of highest responsitivity

single-mode and multi-mode fibers up to core diameter of 62.5 μm

*1 Values shown are warranted unless printed in an italic typeface which represents a typical value.

Optical Sampling Module Characteristics (continued)

   

Optical Return Loss

Fiber Input Accepted

RMS Optical Noise (typical)

RMS Optical Noise (maximum)

Independent Channel Deskew

80C01

>30 dB

single-mode

8.0 μW at 622 Mb/s, 2.488 Gb/s, 9.953 Gb/s, 12.5 GHz;

15.0 μW at 20 GHz

12.0 μW at 622 Mb/s, 2.488 Gb/s, 9.953 Gb/s, 12.5 GHz;

25 μW at 20 GHz

Standard

80C02

>30 dB

single-mode

6.0 μW at 9.953 Gb/s, 12.5 GHz;

10.0 μW at 20 GHz;

15.0 μW at 30 GHz

10.0 μW at 9.953 Gb/s, 12.5 GHz mode;

15 μW at 20 GHz;

30 μW at 30 GHz

Standard

80C07B

>14 dB (multi-mode) >24 dB (single-mode)

single- or multi-mode

0.50 μW at 155 Mb/s, 622 Mb/s, 1063 Mb/s, 1250 Mb/s;

0.70 μW at 2.488/2.500 Gb/s

1.0 μW at 155 Mb/s, 622 Mb/s, 1063 Mb/s, 1250 Mb/s;

1.5 μW at 2.488/2.500 Gb/s

Standard

80C08C

>14 dB (multi-mode) >24 dB (single-mode)

single- or multi-mode

1.7 μW at all filter rates

3.0 μW at all filter rates

Standard

80C10

>30 dB

single-mode

40 μW at 39.813 Gb/s, 43.018 Gb/s (1550 nm); 75 μW at 39.813  Gb/s, 43.018 Gb/s (1310 nm);

30 μW at 30 GHz mode (1550 nm); 55 μW at 30 GHz mode (1310 nm);

85 μW at 65 GHz mode (1550 nm); 150 μW at 65 GHz mode (1310 nm)

60 μW at 39.813 Gb/s, 43.018 Gb/s (1550 nm); 110 μW at 39.813 Gb/s, 43.018 Gb/s (1310 nm);

50 μW at 30 GHz (1550 nm); 90 μW at 30 GHz (1310 nm);

120 μW at 65 GHz (1550 nm); 220 μW at 65 GHz (1310 nm)

Standard

80C11

>30 dB

single-mode

5.5 μW at all filter rates;

10.0 μW at 20 GHz

20.0 μW at 30 GHz

8.0 μW at all filter rates;

14.0 μW at 20 GHz

30.0 μW at 30 GHz

Standard

80C12

>14 dB (62.5 μm multi-mode)

>24 dB (9 μm single mode)

single- or multi-mode

Below 9Gb/s: 1.7 μW

Above 9Gb/s and 9GHz: 3.4 μW

Below 9Gb/s: 3 µW

Above 9Gb/s and 9GHz: 6 µW

Standard

Optical Sampling Module Characteristics (continued)

   

Offset Capability

Power Meter

Power Meter Range

Power Meter Accuracy

Mask Test Optical Sensitivity*2

80C01

Standard

Standard

+4 dBm to -30 dBm

5% of reading

-8 dBm at 622 Mb/s, 2.488 Gb/s, 9.953 Gb/s; -5.0 dBm at 20 GHz

80C02

Standard

Standard

+4 dBm to -30 dBm

5% of reading

-9 dBm at 9.953 Gb/s; -7 dBm at 20 GHz; -4 dBm at 30 GHz

80C07B

Standard

Standard

+4 dBm to -30 dBm

5% of reading

-22 dBm at 155 Mb/s, 622 Mb/s; -20 dBm at 2488/2500 Mb/s

80C08C

Standard

Standard

0 dBm to -30 dBm

5% of reading

-15 dBm at all filter rates

80C10

Standard

Standard

+13 dBm to -21 dBm

5% of reading

0 dBm at 39.813 Gb/s, 43.018 Gb/s; 0 dBm at 30 GHz; +3 dBm at 65 GHz

80C11

Standard

Standard

+4 dBm to -30 dBm

5% of reading

-10 dBm at all filter rates; -7 dBm at 20 GHz; -4 [email protected] 30 GHz

80C12

Standard

Standard

0 dBm to -30 dBm

5% of reading

Below 9Gb/s: -15 dBm

Above 9Gb/s and 9GHz: -12 dBm

*2 Smallest power level for mask test. Values represent theoretical typical sensitivity of NRZ eyes for competitive comparison purposes. Assumes instrument peak-peak noise consumes most of the mask margin.

Physical Characteristics for Electrical Sampling Modules

   

Dimensions (mm/inches)

Weight (kg/lb)

   

Width

Height

Depth

Net

80E01

79/3.1

25/1.0

135/5.3

0.4/0.87

80E02

79/3.1

25/1.0

135/5.3

0.4/0.87

80E03

79/3.1

25/1.0

135/5.3

0.4/0.87

80E04

79/3.1

25/1.0

135/5.3

0.4/0.87

80E06

79/3.1

25/1.0

135/5.3

0.4/0.87

Electrical Sampling Module Characteristics (Refer to Electrical Sampling Module User Manual for more detailed information)

   

Application Type

Channels

Input Impedance

Channel Input Connector

Bandwidth*3

80E01

Microwave General Purpose

1

50 ±0.5 Ω

2.4 mm female Precision adapter to 2.92 mm included with 50 Ω SMA termination

50 GHz

80E02

Low-level Signals

2

50 ±0.5 Ω

3.5 mm female

12.5 GHz*4

80E03

Device Characterization

2

50 ±0.5 Ω

3.5 mm female

20 GHz*4

80E04

TDR Impedance Characterization with single-ended, common, differential TDR capability

2

50 ±0.5 Ω

3.5 mm female

20 GHz*4

80E06

High-speed Electrical Device Characterization

1

50 ±0.5 Ω

1.85 mm female Precision adapter to 2.92 mm included with 50 Ω SMA termination

70+ GHz

*3 Values shown are warranted unless printed in an italic typeface which represents a non-warranted characteristic value that the instrument will typically perform to.

*4 Risetime is calculated from the formula Risetime = 0.35/Bandwidth; Bandwidth is calculated from the formula Bandwidth = 0.35/Risetime

Electrical Sampling Module Characteristics (continued)

   

Rise Time (10% to 90%)

Dynamic Range

Offset Range

Maximum Input Voltage

Vertical Number of Digitized Bits

80E01

7 ps*4

1.0 Vp-p

±1.6 V

±2.0 V

14 bits full scale

80E02

≤28 ps

1.0 Vp-p

±1.6 V

±3.0 V

14 bits full scale

80E03

≤17.5 ps

1.0 Vp-p

±1.6 V

±3.0 V

14 bits full scale

80E04

≤17.5 ps

1.0 Vp-p

±1.6 V

±3.0 V

14 bits full scale

80E06

5.0 ps*4

1.0 Vp-p

±1.6 V

±2.0 V

14 bits full scale

*4 Risetime is calculated from the formula Risetime = 0.35/Bandwidth; Bandwidth is calculated from the formula Bandwidth = 0.35/Risetime

Electrical Sampling Module Characteristics (continued)

   

Vertical Sensitivity Range

DC Vertical Voltage Accuracy, Single Point, Within ±2 °C of Compensated Temperature

Typical Step Response Aberrations*5

RMS Noise*5

80E01

10 mV to 1.0 V full scale

± [2 mV + 0.007 (Offset) + 0.02 (Vertical Value - Offset)]

±3% or less over the zone 10 ns to 20 ps before step transition; +12%, -5% or less for the first 300 ps following step transition; +5.5%, -3% or less over the zone 300 ps to 3 ns following step transition; ±1% or less over the zone 3 ns to 100 ns following step transition; ±0.5% after 100 ns following step transition

1.8 mV

≤2.3 mV (maximum)

80E02

10 mV to 1.0 V full scale

± [2 mV + 0.007 (Offset) + 0.02 (Vertical Value - Offset)]

±3% or less over the zone 10 ns to 20 ps before step transition; +10%, -5% or less for the first 300 ps following step transition; ±3% or less over the zone 300 ps to 5 ns following step transition; ±1% or less over the zone 5 ns to 100 ns following step transition; ±0.5% after 100 ns following step transition

400 μV

≤800 μV (maximum)

80E03

10 mV to 1.0 V full scale

± [2 mV + 0.007 (Offset) + 0.02 (Vertical Value - Offset)]

±3% or less over the zone 10 ns to 20 ps before step transition; +10%, -5% or less for the first 300 ps following step transition; ±3% or less over the zone 300 ps to 5 ns following step transition; ±1% or less over the zone 5 ns to 100 ns following step transition; ±0.5% after 100 ns following step transition

600 μV

≤1.2 mV (maximum)

80E04

10 mV to 1.0 V full scale

± [2 mV + 0.007 (Offset) + 0.02 (Vertical Value - Offset)]

±3% or less over the zone 10 ns to 20 ps before step transition; +10%, -5% or less for the first 300 ps following step transition; ±3% or less over the zone 300 ps to 5 ns following step transition; ±1% or less over the zone 5 ns to 100 ns following step transition; 0.5% after 100 ns following step transition

600 μV

≤1.2 mV (maximum)

80E06

10 mV to 1.0 V full scale

± [2 mV + 0.007 (Offset) + 0.02 (Vertical Value - Offset)]

±5% or less for first 300 ps following step transition

1.8 mV

≤2.4 mV (maximum)

*5 Values shown are warranted unless printed in an italic typeface which represents a non-warranted characteristic value that the instrument will typically perform to.

TDR System (80E04 only)

   

80E04*6

Channels

2

Input Impedance

50 ±0.5 Ω

Channel Input Connector

3.5 mm

Bandwidth

20 GHz

TDR Step Amplitude

250 mV (polarity of either step may be inverted)

TDR System Reflected Rise Time

≤35 ps each polarity

TDR System Incident Rise Time

28 ps (typical)

TDR Step Maximum Repetition Rate

200 kHz

TDR System Step Response Aberrations

±3% or less over the zone 10 ns to 20 ps before step transition; +10%, -5% or less typical for the first 400 ps following step transition; ±3% or less over the zone 400 ps to 5 ns following step transition; ±1% or less after 5 ns following step transition

*6 Values shown are warranted unless printed in an italic typeface which represents a non-warranted characteristic value that the instrument will typically perform to.

Last Modified: 2004-01-26 04:00:00
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