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Teledyne LeCroy 10 GHz Differential Time Domain Reflectometer T3SP10D

Description
Teledyne Test Tools T3SP10D (10 GHz) and T3SP15D (15 GHz) stimulate the DUT with true differential signals. The TDRs offer fast rise times of 50 ps (T3SP10D) and 35 ps (T3SP15D) for fault resolution (in FR4) of 4.2 mm and 3 mm, respectively, at DUT lengths of up to 40 meters and TDR repetition rates of up to 10 MHz and uses the same open short load (OSL) calibration standards as vector network analyzers. Thanks to their small form factors, light weight, and optional internal batteries, the instruments go anywhere in test labs or in the field at a cost-effective price point. Key Features True Differential TDR up to 15 GHz Small Form Factor and Battery Powered S Parameter – S11 Measurements 35 ps Rise Time (SP15D) 50 ps (SP10D) Up to 50,000 points long memory Pre-Compliance for Emerging Serial Data Standards True-Differential Time Domain Reflectometers (TDRs) Most of the modern high-speed designs are implemented with differential transmission lines. Using a true differential TDR simplifi es the setup for signal integrity measurements in such designs. In some scenarios the ground connection could be diffi cult to connect or not accessible if you want measure unshielded twisted pair cables. Most of the time, when you take measurements using a true differential TDR a ground connection is not required and gives you the flexibility to use TDR-probes without a ground connection. Fast TDR Repetition Rate With up to 10 MHz repetition rate the T3SP-series is more than 300 times faster as conventional TDRinstruments which are based on sampling scopes. To achieve the highest possible dynamic range TDRinstruments need to acquire and average out hundreds of waveforms. The faster sampling rate delivers quicker and more accurate measurement results. Full Calibrated Impedance Plot Reference impedance in all TDR instruments are relative; they are made by comparing reflected amplitudes to an incident amplitude. Using full OSL-calibration the T3SP-series is offering best accuracy for impedance measurements in time and frequency domain. Using three calibration standards (open, short, load) in the time domain instead of using a simple normalization which is common in TDR-instruments offers vastly improved error correction for the setup. Using OSL calibration in the time domain avoids irregularities in impedance plots, such as ringing that occurs after the TDR incident step. Full calibrated S-Parameter Many of the modern standards like Ethernet or USB require you to measure the impedance matching of the cables and connectors within the frequency domain (S-Parameter S11). These are the measures commonly made with traditional VNA instruments. The T3SPseries offers fully calibrated differential S-Parameter measurements up to 15 GHz (T3SP15D) using the same OSLT-calibration standards used by VNAs. Long memory The SP-series can acquire up to 50.000 points which gives you a long TDR record capture with high resolution on long DUTs. If the DUT you are going to measure is long, the number of points that can be acquired is limited by the timing resolution of the TDR-plot. Additionally, you have the flexibility to change the TDR repetition rate from 10 MHz to 1MHz using the T3SP-series because it offers you the best timing resolution for cable lengths measuring up to 40 m. ESD-protection High-frequency measurement devices are extremely sensitive to electrostatic discharge (ESD) and can lead to permanent damage to your measurement device. In addition, many laboratories have a requirement to take special precautions to protect their electronic equipment from any damage caused by ESD. The SP-series mitigates this risk by providing a higher degree of protection from this happening. Every SP-series model comes equipped with an ESD-protection module based on high-performance coaxial RF-switches. The ways this works is the RF input circuitry is protected by isolating the devices RF-signal detector from the input connector when the device is not being used to take measurements. Measure Impedance and Insertion Loss The high bit rates used in modern electronics design and future serial data standards extend well into the microwave region. For example, the High-speed Universal Serial Bus (USB3.1) supports transfer rates up to 10 GB/s over twisted-pair cables. These high bit rate transmissions through connectors and cables results in considerable distortion because of channel dispersion. To keep the distortion to manageable levels, many standards specify the impedance and return loss for cables and connectors. These measurements are represented by the S-parameter, S11. The T3SPseries offer fully calibrated differential S-Parameter measurements up to 15 GHz (T3SP15D). This gives you the flexibility to store your output files in a variety of formats (CSV, Matlab and Touchstone) which can be easily which can be easily used in tools like SI-Studio, Matlab or other simulation programs. Controlled Impedance Traces on Printed Circuit Boards (PCB) Due to increasing clock rates in high speed digital systems the necessity of controlled impedance PCBs is growing rapidly. Additionally, cables and connectors must meet high frequency design specifications and controlled impedance specifications. The T3SP-series helps you to measure wave impedances of PCBs, cables, and connectors very accurate and comfortably. In contrast to other systems on the market, the T3SP-series is designed for measuring specific traces on a PCB and for on-board tests, the TDR-Probes ensure accurate measurement for qualification testing and debugging assembled PCBs.
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Product
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10 GHz Differential Time Domain Reflectometer - T3SP10D - Teledyne LeCroy
Chestnut Ridge, NY, USA
10 GHz Differential Time Domain Reflectometer
T3SP10D
10 GHz Differential Time Domain Reflectometer T3SP10D
Teledyne Test Tools T3SP10D (10 GHz) and T3SP15D (15 GHz) stimulate the DUT with true differential signals. The TDRs offer fast rise times of 50 ps (T3SP10D) and 35 ps (T3SP15D) for fault resolution (in FR4) of 4.2 mm and 3 mm, respectively, at DUT lengths of up to 40 meters and TDR repetition rates of up to 10 MHz and uses the same open short load (OSL) calibration standards as vector network analyzers. Thanks to their small form factors, light weight, and optional internal batteries, the instruments go anywhere in test labs or in the field at a cost-effective price point. Key Features True Differential TDR up to 15 GHz Small Form Factor and Battery Powered S Parameter – S11 Measurements 35 ps Rise Time (SP15D) 50 ps (SP10D) Up to 50,000 points long memory Pre-Compliance for Emerging Serial Data Standards True-Differential Time Domain Reflectometers (TDRs) Most of the modern high-speed designs are implemented with differential transmission lines. Using a true differential TDR simplifi es the setup for signal integrity measurements in such designs. In some scenarios the ground connection could be diffi cult to connect or not accessible if you want measure unshielded twisted pair cables. Most of the time, when you take measurements using a true differential TDR a ground connection is not required and gives you the flexibility to use TDR-probes without a ground connection. Fast TDR Repetition Rate With up to 10 MHz repetition rate the T3SP-series is more than 300 times faster as conventional TDRinstruments which are based on sampling scopes. To achieve the highest possible dynamic range TDRinstruments need to acquire and average out hundreds of waveforms. The faster sampling rate delivers quicker and more accurate measurement results. Full Calibrated Impedance Plot Reference impedance in all TDR instruments are relative; they are made by comparing reflected amplitudes to an incident amplitude. Using full OSL-calibration the T3SP-series is offering best accuracy for impedance measurements in time and frequency domain. Using three calibration standards (open, short, load) in the time domain instead of using a simple normalization which is common in TDR-instruments offers vastly improved error correction for the setup. Using OSL calibration in the time domain avoids irregularities in impedance plots, such as ringing that occurs after the TDR incident step. Full calibrated S-Parameter Many of the modern standards like Ethernet or USB require you to measure the impedance matching of the cables and connectors within the frequency domain (S-Parameter S11). These are the measures commonly made with traditional VNA instruments. The T3SPseries offers fully calibrated differential S-Parameter measurements up to 15 GHz (T3SP15D) using the same OSLT-calibration standards used by VNAs. Long memory The SP-series can acquire up to 50.000 points which gives you a long TDR record capture with high resolution on long DUTs. If the DUT you are going to measure is long, the number of points that can be acquired is limited by the timing resolution of the TDR-plot. Additionally, you have the flexibility to change the TDR repetition rate from 10 MHz to 1MHz using the T3SP-series because it offers you the best timing resolution for cable lengths measuring up to 40 m. ESD-protection High-frequency measurement devices are extremely sensitive to electrostatic discharge (ESD) and can lead to permanent damage to your measurement device. In addition, many laboratories have a requirement to take special precautions to protect their electronic equipment from any damage caused by ESD. The SP-series mitigates this risk by providing a higher degree of protection from this happening. Every SP-series model comes equipped with an ESD-protection module based on high-performance coaxial RF-switches. The ways this works is the RF input circuitry is protected by isolating the devices RF-signal detector from the input connector when the device is not being used to take measurements. Measure Impedance and Insertion Loss The high bit rates used in modern electronics design and future serial data standards extend well into the microwave region. For example, the High-speed Universal Serial Bus (USB3.1) supports transfer rates up to 10 GB/s over twisted-pair cables. These high bit rate transmissions through connectors and cables results in considerable distortion because of channel dispersion. To keep the distortion to manageable levels, many standards specify the impedance and return loss for cables and connectors. These measurements are represented by the S-parameter, S11. The T3SPseries offer fully calibrated differential S-Parameter measurements up to 15 GHz (T3SP15D). This gives you the flexibility to store your output files in a variety of formats (CSV, Matlab and Touchstone) which can be easily which can be easily used in tools like SI-Studio, Matlab or other simulation programs. Controlled Impedance Traces on Printed Circuit Boards (PCB) Due to increasing clock rates in high speed digital systems the necessity of controlled impedance PCBs is growing rapidly. Additionally, cables and connectors must meet high frequency design specifications and controlled impedance specifications. The T3SP-series helps you to measure wave impedances of PCBs, cables, and connectors very accurate and comfortably. In contrast to other systems on the market, the T3SP-series is designed for measuring specific traces on a PCB and for on-board tests, the TDR-Probes ensure accurate measurement for qualification testing and debugging assembled PCBs.

Teledyne Test Tools T3SP10D (10 GHz) and T3SP15D (15 GHz) stimulate the DUT with true differential signals. The TDRs offer fast rise times of 50 ps (T3SP10D) and 35 ps (T3SP15D) for fault resolution (in FR4) of 4.2 mm and 3 mm, respectively, at DUT lengths of up to 40 meters and TDR repetition rates of up to 10 MHz and uses the same open short load (OSL) calibration standards as vector network analyzers. Thanks to their small form factors, light weight, and optional internal batteries, the instruments go anywhere in test labs or in the field at a cost-effective price point.

Key Features

  • True Differential TDR up to 15 GHz
  • Small Form Factor and Battery Powered
  • S Parameter – S11 Measurements
  • 35 ps Rise Time (SP15D) 50 ps (SP10D)
  • Up to 50,000 points long memory
  • Pre-Compliance for Emerging Serial Data Standards

True-Differential Time Domain Reflectometers (TDRs)

Most of the modern high-speed designs are implemented with differential transmission lines. Using a true differential TDR simplifi es the setup for signal integrity measurements in such designs. In some scenarios the ground connection could be diffi cult to connect or not accessible if you want measure unshielded twisted pair cables. Most of the time, when you take measurements using a true differential TDR a ground connection is not required and gives you the flexibility to use TDR-probes without a ground connection.

Fast TDR Repetition Rate

With up to 10 MHz repetition rate the T3SP-series is more than 300 times faster as conventional TDRinstruments which are based on sampling scopes. To achieve the highest possible dynamic range TDRinstruments need to acquire and average out hundreds of waveforms. The faster sampling rate delivers quicker and more accurate measurement results.

Full Calibrated Impedance Plot

Reference impedance in all TDR instruments are relative; they are made by comparing reflected amplitudes to an incident amplitude. Using full OSL-calibration the T3SP-series is offering best accuracy for impedance measurements in time and frequency domain. Using three calibration standards (open, short, load) in the time domain instead of using a simple normalization which is common in TDR-instruments offers vastly improved error correction for the setup. Using OSL calibration in the time domain avoids irregularities in impedance plots, such as ringing that occurs after the TDR incident step.

Full calibrated S-Parameter

Many of the modern standards like Ethernet or USB require you to measure the impedance matching of the cables and connectors within the frequency domain (S-Parameter S11). These are the measures commonly made with traditional VNA instruments. The T3SPseries offers fully calibrated differential S-Parameter measurements up to 15 GHz (T3SP15D) using the same OSLT-calibration standards used by VNAs.

Long memory

The SP-series can acquire up to 50.000 points which gives you a long TDR record capture with high resolution on long DUTs. If the DUT you are going to measure is long, the number of points that can be acquired is limited by the timing resolution of the TDR-plot. Additionally, you have the flexibility to change the TDR repetition rate from 10 MHz to 1MHz using the T3SP-series because it offers you the best timing resolution for cable lengths measuring up to 40 m.

ESD-protection

High-frequency measurement devices are extremely sensitive to electrostatic discharge (ESD) and can lead to permanent damage to your measurement device. In addition, many laboratories have a requirement to take special precautions to protect their electronic equipment from any damage caused by ESD. The SP-series mitigates this risk by providing a higher degree of protection from this happening. Every SP-series model comes equipped with an ESD-protection module based on high-performance coaxial RF-switches. The ways this works is the RF input circuitry is protected by isolating the devices RF-signal detector from the input connector when the device is not being used to take measurements.

Measure Impedance and Insertion Loss

The high bit rates used in modern electronics design and future serial data standards extend well into the microwave region. For example, the High-speed Universal Serial Bus (USB3.1) supports transfer rates up to 10 GB/s over twisted-pair cables. These high bit rate transmissions through connectors and cables results in considerable distortion because of channel dispersion. To keep the distortion to manageable levels, many standards specify the impedance and return loss for cables and connectors. These measurements are represented by the S-parameter, S11. The T3SPseries offer fully calibrated differential S-Parameter measurements up to 15 GHz (T3SP15D). This gives you the flexibility to store your output files in a variety of formats (CSV, Matlab and Touchstone) which can be easily which can be easily used in tools like SI-Studio, Matlab or other simulation programs.

Controlled Impedance Traces on Printed Circuit Boards (PCB)

Due to increasing clock rates in high speed digital systems the necessity of controlled impedance PCBs is growing rapidly. Additionally, cables and connectors must meet high frequency design specifications and controlled impedance specifications. The T3SP-series helps you to measure wave impedances of PCBs, cables, and connectors very accurate and comfortably. In contrast to other systems on the market, the T3SP-series is designed for measuring specific traces on a PCB and for on-board tests, the TDR-Probes ensure accurate measurement for qualification testing and debugging assembled PCBs.

Supplier's Site Datasheet

Technical Specifications

  Teledyne LeCroy
Product Category Condition Monitors and Fault Detectors
Product Number T3SP10D
Product Name 10 GHz Differential Time Domain Reflectometer
Form Factor Portable / Handheld / Mobile
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