力科探头资料-USB迷|专注于互联网分享

2024年4月4日发(作者：象芳茵)

Teledyne LeCroy has a wide variety of world class probes and amplifiers to compliment its

product line. From the ZS high impedance active probes to the WaveLink differential probing

system which offers bandwidths up to 25 GHz, Teledyne LeCroy probes and probe

accessories provide optimum mechanical connections for signal measurement.

Front Cover:

ZS Series High Impedence

Active Probes

Active Voltage Probes - p. 4 - 7

ZS1000

ZS1500

ZS2500

ZS4000

Current Probes - p. 8 -11

CP030

CP030A

CP031

CP031A

CP150

CP500

Differential Probes - p. 12 - 21

ZD200

ZD500

ZD1000

ZD1500

AP033

D410-PS

D420-PS

D400A-AT

D610-PS

D620-PS

D600A-AT

D830-PS

D1030-PS

D1330-PS

D1305-A-PS

D1605-A-PS

D2005-A-PS

D2505-A-PS

High Voltage Differential Probes - p. 22 - 27

HVD3102

HVD3106

HVD3106-6M

ADP300

ADP305

AP031

✓✓

✓

✓✓

✓

Differential Amplifiers - p. 28 - 31

DXC200

DA101

DA1855A

DA1855A-PR2

DA1855A-PR2-RM

DA1855A-RM

DXC-5100

DXC100A

High Voltage Probes - p. 32 - 37

HVP120

PPE1.2KV

PPE2KV

PPE4KV

PPE5KV

PPE6KV

OE425

OE455

OE525

OE555

OE695G

Passive Probes - p. 42 - 45

PP006A

PP007-WR

PP008

PP009

PP010

PP011

PP016

PP017

PP018

PP019

PP020

Transmission Line Probes - p. 46 - 47

PP066

Optical Probes - p. 38 - 41

Note: Some probes require purchase of the amplifier and platform/cable assembly separately – Reference detailed literature for more information.

✓

✓✓✓✓

✓✓✓

✓

✓✓

Engineers must commonly probe high-frequency signals with high

signal fidelity. Typical passive probes with high input R and C provide good

response at lower frequencies, but inappropriately load the circuit and

distort signals at higher frequencies. Active voltage probes feature both

high input R and low input C to reduce circuit loading across the entire

probe/oscilloscope bandwidth. With low circuit loading and a form factor

that allows probing in confined areas, the active voltage probe becomes

the everyday probe for all different types of signals and connection points.

Opposite page:

ZS Series High Impedance Active Probe

The ZS Series probes are high impedance, low capacitance active probes that

maintain high signal fidelity through 4 GHz. A small form factor and a wide variety

of accessories ensures the ZS probe meets every difficult probing challenge.

Engineers must commonly probe high frequency signals with high signal fidelity.

Typical passive probes with high input R and C provide good response at lower

frequencies but inappropriately load the circuit and distort signals at higher

frequencies. The ZS Series features both high input R (1 MΩ) and low input C

Teledyne LeCroy

Active Voltage Probe

Model Numbers:

ZS1000

ZS1500

ZS2500

ZS4000

(0.6 pF and 0.9 pF) to reduce circuit loading across the entire probe/oscilloscope

bandwidth. The ZS1000 is ideal for 200–600 MHz oscilloscopes. The ZS1500 is

ideal for 1 GHz oscilloscopes, the ZS2500 is ideal for 2 GHz oscilloscopes, and the

ZS4000 is ideal for 2.5 GHz and 4 GHz oscilloscopes.

ZS4000

ZS1000

ZS1500

ZS2500

Ordering Information

Product Description

4 GHz, 0.6 pF, 1 MΩ

High Impedance Active Probe

2.5 GHz, 0.9 pF, 1 MΩ

High Impedance Active Probe

1.5 GHz, 0.9 pF, 1 MΩ

High Impedance Active Probe

1 GHz, 0.9 pF, 1 MΩ

High Impedance Active Probe

Set of 4 ZS2500, 2.5 GHz, 0.9 pF, 1 MΩ

High Impedance Active Probes

Set of 4 ZS1500, 1.5 GHz, 0.9 pF, 1 MΩ

High Impedance Active Probes

Set of 4 ZS1000, 1 GHz, 0.9 pF, 1 MΩ

High Impedance Active Probes

Standard Accessory/Quantity

Product Code

ZS4000

ZS2500

ZS1500

ZS1000

ZS2500-QUADPAK

ZS1500-QUADPAK

ZS1000-QUADPAK

Specifications

Probe Bandwidth

Input Capacitance

DC Input Resistance

Probe Offset Range

Attenuation

Input Dynamic Range

Non-destruct Voltage

ZS1000ZS1500ZS2500ZS4000

1 GHz

N/A

1.5 GHz

0.9 pF

2.5 GHz

1 MΩ

±12 V

÷10

±8 V

20 V

4 GHz

0.6 pF

Electrical Characteristics

General Characteristics

Cable Length1.3 m

2.54 mm PCB Adaptor

2.54mm Square Pin Adapter

2.54mm Square Pin Adaptor

IC Tip

Bent Tip

Channel ID Clips

(Set of 4 colors)

Copper Tape Pad

Freehand Probe Holder

Ground Blade – Narrow

Ground Blade – Wide

Ground Blade, Narrow

Ground Blade, Wide

Micro-Grabber Pair

Offset Ground

Accessory Description

ZS1000

Replacement ZS1500

Part NumberZS2500ZS4000

PK-ZS-024

PK-ZS-012

PK-ZS-018

PACC-PT003

PACC-PT005

PK-ZS-010

PK-ZS-009

PK-ZS-019

PACC-MS005

PK-ZS-008

PK-ZS-011

PK-ZS-021

PK-ZS-015

PK-ZS-007R and

PK-ZS-007B

PK-ZS-016

Offset Ground – Z Lead

Pogo Ground Lead

Pogo Tip

Probe Tip – Standard

QFPIC Clips (set of 2)

Right Angle Lead – Long

Right Angle Lead – Short

Right Angle Socket

Straight Pin Lead – Long

Straight Pin Lead – Short

Y Lead Adapter

Y Lead Adaptor

Accessory Description

ZS1000

Replacement ZS1500

Part NumberZS2500ZS4000

PK-ZS-002

PK-ZS-020

PACC-CD008

PK-ZS-017

PK-ZS-013

PK-ZS-001

PK-ZS-025

PACC-LD004

PACC-LD003

PK-ZS-006

PK-ZS-023

PK-ZS-004

PK-ZS-022

PK-ZS-003

PK-ZS-005

PK-ZS-014

Teledyne LeCroy current probes do not require the breaking of a

circuit or the insertion of a shunt to make accurate and reliable

current measurements. Based on a combination of Hall effect and

transformer technology, Teledyne LeCroy current probes are ideal for

making accurate AC, DC, and impulse current measurements.

Wide Range of Applications

Teledyne LeCroy current probes are available in a variety of models for a

wide range of applications. The full range of Teledyne LeCroy current probes

includes models with bandwidths up to 100 MHz, peak currents up to

700 A and sensitivities to 1 mA/div. Teledyne LeCroy current probes are often

used in applications such as the design and test of switching power supplies,

motor drives, electric vehicles, and uninterruptible power supplies.

High Sensitivity

The CP030A and CP031A provide a high sensitivity of 1 mA/div. This

allows for more precise low current measurements on Teledyne LeCroy

oscilloscopes. When used with HDO high definition oscilloscopes with

HD4096 technology, users will obtain highly accurate, low current waveforms

with unmatched 12-bit resolution for improved debug and analysis.

Fully Integrated

All Teledyne LeCroy current probes are powered through the Teledyne LeCroy

ProBus

connection and require no additional hardware. Along with providing

power, the ProBus connection allows the current probe and oscilloscope to

communicate, resulting in current waveforms automatically displayed on

screen in Amps, and calculated power traces scaled correctly in Watts. This

full integration also allows for Degauss and Autozero functions to be done

directly from the oscilloscope’s user interface.

Deskew Calibration Source

The DCS015 deskew calibration source has both voltage and current time-

aligned signals, which enables the precise deskew of voltage and current

probes. Most voltage probes along with the CP030, CP030A, CP031, and

CP031A are compatible with the DSC015.

Opposite page:

CP031, 30A, 100 MHz Current Probe.

Teledyne LeCroy

Current Probes

Model Numbers:

CP030

CP030A

CP031

CP031A

CP150

CP500

DCS015

Features

•

ProBus active probe interface withautomatic scaling in A/div

•

Autozero and degauss capabilities built into instrument’s user interface

Wide range of input currents and bandwidth capabilities

•

–

P030

continuous current

–

rms

•

–

30 A

50 A current

–

P030A

–

30 A

rms

continuous current

50 MHz bandwidth

peak

–

50 A

peak

current

–

50 MHz bandwidth

1 mA/div sensitivity

•

–

P031

–

•

–

P031A

30 A

rms

continuous current

–

50 A

100 MHz bandwidth

peak

current

–

30 A

rms

continuous current

–

50 A

peak

current

–

100 MHz bandwidth

1 mA/div sensitivity

•

–

P150

•

–

150 A

rms

continuous current

–

P500

–

500 A

10 MHz bandwidth

peak

current

–

500 A

rms

continuous current

–

700 A

2 MHz bandwidth

peak

current

•

–

CS015

Precise deskew of voltage and

–

current probes.

Compatible with the

CP031,CP031A,

CP030, and CP030A

Specifications

Max. Continuous

Input Current

Bandwidth

Rise Time (typical)

CP030

†

CP030A

†

30 A

rms

50 MHz

≤

7 ns

50 A

peak

CP031

†

CP031A

†

CP150

150 A

rms

CP500

500 A

rms

≤

175 ns

Electrical Characteristics*

100 MHz

≤

3.5 ns

10 MHz

≤

35 ns

2 MHz

Max. Peak Current

(non-continuous)

Output Voltage

Max Continuous Input Current

at 1 V/A (100mA/div or less)

Offset Range at 1V/A

(100mA/div or less)

Minimum Sensitivity

Low-Frequency Accuracy

AC Noise at 20 MHz BWL

Coupling

300 A

peak

0.1 V/A

–

10 mA/div

≤

2.5 mA

700 A

peak

0.01 V/A

–

0.1 V/A

–

10 mA/div

≤

2.5 mA

0.1 V/A & 1 V/A

5 A

±5 A

1 mA/div

≤

150 µA

0.1 V/A & 1 V/A

5 A

±5 A

1 mA/div

≤

150 µA

100 mA/div

≤

6.0 mA

≤

8.0 mA

AC, DC, GND

Cable Length

Weight

Max. Conductor Size

(Diameter)

Interface

Usage Environment

Operating Temperature

Max. Relative Humidity

Max. Altitude

Maximum Insulated

Wire Voltage

General Characteristics

240 g260 g

1.5 m

5 mm

240 g260 g

2 m

500 g

20 mm

6 m

630 g

ProBus, 1 M

only

Indoor

C to 40

80%

2000 m

300 V CAT I600 V CAT II, 300 V CAT III

* Electrical Characteristics Guaranteed at 23 °C ±3 °C

† The CP031 and CP030 requre the Teledyne LeCroy oscilloscope to be running firmware version 4.3.1.1 or greater. The CP031A and CP030A require

firmware version or greater. The CP030A and CP031A are not compatible with the WaveSurfer 3000 series.

Ordering Information

Product Description

30 A; 50 MHz Current Probe – AC/DC; 30 A

rms

; 50 A Peak Pulse

30 A; 50 MHz High Sensitivity Current Probe – AC/DC; 30 A

rms

; 50 A Peak Pulse

30 A; 100 MHz Current Probe – AC/DC; 30 A

rms

; 50 A Peak Pulse

30 A; 100 MHz High Sensitivity Current Probe – AC/DC; 30 A

rms

; 50 A Peak Pulse

150 A; 10 MHz Current Probe – AC/DC; 150 A

rms

; 500 A Peak Pulse

500 A; 2 MHz Current Probe – AC/DC; 500 A

rms

; 700 A Peak Pulse

Deskew Calibration Source for CP031,CP031A, CP030, CP030A and AP015

Product Code

CP030

CP030A

CP031

CP031A

CP150

CP500

DCS015

Differential active probes are like two probes in one. Instead of measuring

a test point in relation to a ground point (like single-ended active probes),

differential probes measure the difference in voltage of a test point in

relation to another test point.

Opposite page:

WaveLink

(13 GHz – 25 GHz)

High Bandwidth Differential Probing System

≤ 1.5 GHz

4 GHz - 6 GHz

8 GHz - 13 GHz

13 GHz - 25 GHz

The ZD Series probes provide wide dynamic range, excellent noise and loading

performance and an extensive set of probe tips, leads, and ground accessories

to handle a wide range of probing scenarios. The low 1 pF capacitance means

this probe is ideal for all frequencies. The ZD Series differential probes provide full

system bandwidth for all Teledyne LeCroy Oscilloscopes 1.5 GHz and lower.

Fully Integrated

With the ProBus interface, the ZD500, 1000, and 1500 become an integral part

of the oscilloscope. All probe gain and offset controls are transparent to the user,

making it easier to probe the circuit without concern for which gain setting to

choose. When used with a Teledyne LeCroy digital oscilloscope, no external power

supply is required.

Teledyne LeCroy

≤1.5 GHz

Differential Probe

Model Numbers:

ZD200

ZD500

ZD1000

ZD1500

AP033

Wide Dynamic Range

The ZD500, 1000, 1500 probes provide transparent probe attenuation so signals are

always optimized for the display. The differential range is 18 V

p-p

with a differential

offset of ±8V and common mode range of ±10 V, making these probes versatile for

every probing application.

Wide Applications

The wide dynamic range of 16 V

p-p

and offset range of ±8V suit this probe to a wide

range of applications and signal types. The ZD differential probes are ideally suited

for Automotive, Serial Data, power, and general purpose use.

Bandwidth (Warranted)

Bandwidth (Typical)

Risetime 10–90% (Typical)

Risetime 20–80% (Typical)

LF Attenuation Accuracy (Warranted)

Zero Offset (Typical)

(within 15 minutes after autozero)

System Noise (Typical)

Probe Noise Density (Typical)

Input Differential Range (Nominal)

Differential Offset Range (Nominal)

Offset Gain Accuracy (Typical)

Common Mode Range (Nominal)

Maximum Non-destruct Voltage

(Nominal)

CMRR (Typical)

DC Input Resistance (Nominal)

Differential Input Capacitance

(Typical)

Electrical Characteristics

Specifications

ZD200

200 MHz

ZD500

500 MHz

650 MHz

650 ps

500 ps

ZD1000

1000 MHz

1200 MHz

375 ps

280 ps

5 mV

38 nV/rt (Hz)

±8 V (16 V

p-p

)

±18 V

±10 V

30 V

1.75 mV

rms

ZD1500

1500 MHz

1700 MHz

270 ps

200 ps

1.75 ns

3 mV

rms

± 20 V

1.3 mV

rms

± 60 V

80 dB @ 60 Hz

50 dB@10 MHz

250 kΩ (Common Mode)

1 MΩ (Differential Mode)

3.5 pF

60 dB 50/60 Hz

30 dB 20 MHz

25 dB 500 MHz

60 dB 50/60 Hz

30 dB 20 MHz

25 dB @ 1000 MHz

50 kΩ (Common Mode)

120 kΩ (Differential Mode)

< 1.0 pF

60 dB 50/60 Hz

30 dB 20 MHz

25 dB @ 1500 MHz

≤ 1.5 GHz DIFFERENTIAL PROBES

Ordering Information

Product Description

200 MHz, 3.5 pF, 1 MΩ Active Differential Probe

500 MHz, 1.0 pF, 1 MΩ Active Differential Probe

1 GHz, 1.0 pF, 1 MΩ Active Differential Probe

1.5 GHz, 1.0 pF, 1 MΩ Active Differential Probe

Product Code

ZD200

ZD500

ZD1000

ZD1500

AP033

High bandwidth, excellent common-mode rejection ratio

(CMRR) and low noise make these active differential

probes ideal for applications such as disk drive design

Specifications

Bandwidth

Gain

and failure analysis, as well as wireless and data

communication design.

DC Accuracy

Input Resistance

Differential Mode Range

500 MHz

x10, x1, ÷10 (÷100 with

plug-on ÷10 attenuator)

1% in x1 without

external attenuator

1 MΩ each input to ground

2 MΩ differential between inputs

±400 mV (x1)

±40 mV (x10)

±4 V (÷10)

±40 V (÷100)

±400 mV (x1, x10)

±4 V (±10)

±40 V (±100)

±42 V peak (±10)

+4.2 V peak (±100)

70 Hz 10,000:1 (80 dB)

100 kHz 10,000:1 (80 dB)

1 MHz 1000:1 (60 dB)

10 MHz 100:1 (40 dB)

250 MHz 5:1 (14 dB)

Offset Range

Common-Mode Range

CMRR

Ordering Information

Product Description

500 MHz Differential Probe

Product Code

AP033

WaveLink

probes provide industry leading technology for wideband signal

connection to test instruments. The first differential probes to employ SiGe

technology, they deliver full system bandwidth when used with oscilloscopes

up to 6 GHz.

WaveLink probes:

•

Maintain good loading characteristics across the frequency span

•

Optimized for gain, noise and bandwidth for optimal performance

•

Offer broad range of dynamic range and noise over gain settings by

incorporating automatic probe attenuation changes

Teledyne LeCroy

4 GHz - 6 GHz

Differential Probe

Model Numbers:

D410-PS

D420-PS

D400A-AT

D610-PS

D620-PS

D600A-AT

WaveLink is the first differential probe to use a unique calibration process

to achieve superb waveform fidelity for routine voltage measurements.

Calibration coefficients “fine tune” the frequency response of each WaveLink

probe and are individually determined during factory calibration and programmed

into the probe. The oscilloscopes read this data and use it to digitally compensate

the entire system response for superior fidelity.

WL-PLINK-CASE

ProLink

WL-PBUS-CASE

ProBus

D610

6 GHz

D600A-AT

D620

6 GHz

D410

4 GHz

D400A-AT

D420

4 GHz

Dx10-SP

Dx10-QC

Dx10-HITEMP

(OPTIONAL)

Dx10-SI

Dx10-PT-KIT

(Included in Dx10-PS)

Dx20-HITEMP

(OPTIONAL)

Dx20-PT-KIT

(Included in Dx20-PS)

Dx20-SI

Dx20-SP

Dx20-QC

Bandwidth*

(Probe Only, Guaranteed)

(System Bandwidth, Typical)

Dx10-SI and

Dx10-PT Tips

6 GHz

Dx10-HiTemp

5 GHz

Dx10-QC Tip

4 GHz

Dx10-SP Tip

3 GHz

Dx10-SI and

Dx10-PT Tips

75 ps (typical)

Dx10-HiTemp

90 ps (typical)

Dx10-QC Tip

122.5 ps (typical)

Dx10-SP Tip

150 ps (typical)

Dx10-SI and

Dx10-PT Tips

56 ps (typical)

Dx10-HiTemp

67.5 ps (typical)

Dx10-QC Tip

92 ps (typical)

Dx10-SP Tip

113 ps (typical)

<36 nV/√Hz

(2.8 mV

rms

) (typical)

Referred to input,

6 GHz bandwidth

2.5V

pk-pk

, ±1.25V

D610, D610-PS

Rise Time* (10–90%)

Rise Time* (20–80%)

Noise (System)

Input Dynamic Range

(Nominal)

Input Common Mode Voltage

Range (Nominal)

Input Offset Voltage Range

Non-destructive

Input Range (Nominal)

Attenuation

DC Input Resistance

(Nominal)

Impedance

(Zmin, Typical)

Input

Dx20-SI and

Dx20-PT Tips

6 GHz

Dx20-HiTemp

5 GHz

Dx20-QC Tip

4 GHz

Dx20-SP Tip

3 GHz

Dx20-SI and

Dx20-PT Tips

75 ps (typical)

Dx20-HiTemp

90 ps (typical)

Dx20-QC Tip

122.5 ps (typical)

Dx20-SP Tip

150 ps (typical)

Dx20-SI and

Dx20-PT Tips

56 ps (typical)

Dx20-HiTemp

67.5 ps (typical)

Dx20-QC Tip

92 ps (typical)

Dx20-SP Tip

113 ps (typical)

<61 nV/√Hz

(4.8 mV

rms

) (typical)

Referred to input,

6 GHz bandwidth

pk-pk

, ±2.5V

D620, D620-PS

Dx10-SI, Dx10-HiTemp,

Dx10-QC and Dx10-PT Tips

4 GHz

Dx10-SP Tip

3 GHz

D410, D410-PS

Dx20-SI, Dx20-HiTemp,

Dx20-QC and Dx20-PT Tips

4 GHz

Dx20-SP Tip

3 GHz

D420, D420-PSD600A-AT

6 GHz

D400A-AT

4 GHz

Dx10-SI, Dx10-HiTemp, and

Dx20-SI, Dx20-HiTemp, and

Dx10-PT Tips

Dx20-PT Tips

112 ps (typical)

Dx10-QC Tip

Dx20-QC Tip

122.5 ps (typical)

Dx10-SP Tip

Dx20-SP Tip

150 ps (typical)

<75 ps (typical)<112 ps (typical)

Dx10-SI, Dx10-HiTemp, and

Dx20-SI, Dx20-HiTemp, and

Dx10-PT Tips

Dx20-PT Tips

84 ps (typical)

Dx10-QC Tip

Dx20-QC Tip

92 ps (typical)

Dx10-SP Tip

Dx20-SP Tip

113 ps (typical)

56 ps (typical)84 ps (typical)

<36 nV/√Hz

(2.3 mV

rms

) (typical)

Referred to input,

4 GHz bandwidth

2.5V

pk-pk

, ±1.25V

±4 V

<67 nV/√Hz

(4.3 mV

rms

) (typical)

Referred to input,

4 GHz bandwidth

pk-pk

, ±2.5V

<74 nV/√Hz <74 nV/√Hz

(5.8 mV

rms

) (typical) (4.1 mV

rms

) (typical)

Referred to input, Referred to input,

6 GHz bandwidth4 GHz bandwidth

4.8V

pk-pk

, ±2.4V

±2.4 Vmax

n/a

±18 V

±3 V Differential (nominal)

±20 V

1.7X / 1.0X (nominal)

Dx10-SI Lead,

Dx10-HiTemp

>175 Ω Differential

†

Dx10-PT Tip

>175 Ω Differential

†

Dx10-QC Tip

>125 Ω Differential

†

Dx10-SP Tip

>40 Ω Differential

†

3.2X / 1.9X (nominal)1.7X / 1.0X (nominal)

100 kΩ Differential

50 kΩ Common Mode

Dx20-SI Lead, Dx10-SI Lead,

Dx20-HiTempDx10-HiTemp

>250 Ω Differential

†

>200 Ω Differential

†

Dx20-PT TipDx10-PT Tip

>175 Ω Differential

†

>175 Ω Differential

†

Dx20-QC TipDx10-QC Tip

>125 Ω Differential

†

>100 Ω Differential

†

Dx20-SP TipDx10-SP Tip

>40 Ω Differential

†

>40 Ω Differential

†

3.2X / 1.9X (nominal)

Dx20-SI Lead,

Dx20-HiTemp

>350 Ω Differential

†

Dx20-PT Tip

>175 Ω Differential

†

Dx20-QC Tip

>100 Ω Differential

†

Dx20-SP Tip

>40 Ω Differential

†

2.5X

4 kΩ Differential

2 kΩ Common Mode

>200 Ω Differential>450 Ω Differential

through entire

frequency range

* All bandwidth and rise time measurements are made with an oscilloscope bandwidth greater or equal to the probe bandwidth

†

Through entire frequency range

Product Description

Complete Probe Systems

Product Code

D410-PS

D420-PS

D610-PS

D620-PS

Product Description

Amplifier and Probe Tip Modules (cont’d)

Product Code

D400A-AT

D600A-AT

4 GHz Complete Probe System with Dx10-SI Solder-In Tip (Qty. 1),

Dx10-SP Square Pin (Qty. 1), Dx10-QC Quick Connect (Qty. 1), and

Dx10-PT-KIT Positioner Tip Browser (Qty. 1)

4 GHz Complete Probe System with Dx20-SI Solder-In Tip (Qty. 1),

Dx20-SP Square Pin (Qty. 1), Dx20-QC Quick Connect (Qty. 1), and

Dx20-PT-KIT Positioner Tip Browser (Qty. 1)

6 GHz Complete Probe System with Dx10-SI Solder-In Tip (Qty. 1),

Dx10-SP Square Pin (Qty. 1), Dx10-QC Quick Connect (Qty. 1), and

Dx10-PT-KIT Positioner Tip Browser (Qty. 1)

6 GHz Complete Probe System with Dx20-SI Solder-In Tip (Qty. 1),

Dx20-SP Square Pin (Qty. 1), Dx20-QC Quick Connect (Qty. 1), and

Dx20-PT-KIT Positioner Tip Browser (Qty. 1)

WaveLink D300A-AT 4 GHz/4.8Vp-p Differential Amplifier

Module with Adjustable Tip

WaveLink D600A-AT 6 GHz/4.8Vp-p Differential Amplifier

Module with Adjustable Tip

Positioner Tip (Browser) Kits

WaveLink Dx10-PT Adjustable Positioner Tip Kit.

For use with Dx10 amplifiers.

WaveLink Dx20-PT Adjustable Positioner Tip Kit.

For use with Dx20 amplifiers.

Dx10-PT-KIT

Dx20-PT-KIT

Probe Platform/Cable Assemblies and Adapters

WaveLink ProLink Platform/Cable Assembly Kit with

complete soft carrying case for all probe items.

WaveLink ProBus Platform/Cable Assembly Kit with

complete soft carrying case for all probe items.

WL-PLINK-CASE

WL-PBUS-CASE

Amplifier and Probe Tip Modules

WaveLink D410 4 GHz/2.5Vp-p Differential Probe Amplifier with

Dx10-SI Solder-In Tip (Qty. 1), Dx10-SP Square Pin (Qty. 1), and

Dx10-QC Quick Connect (Qty. 1)

WaveLink D420 4 GHz/5Vp-p Differential Probe Amplifier with

Dx20-SI Solder-In Tip (Qty. 1), Dx20-SP Square Pin (Qty. 1), and

Dx20-QC Quick Connect (Qty. 1)

WaveLink D610 6 GHz/2.5Vp-p Differential Probe Amplifier with

Dx10-SI Solder-In Tip (Qty. 1), Dx10-SP Square Pin (Qty. 1), and

Dx10-QC Quick Connect (Qty. 1)

WaveLink D620 6 GHz/5Vp-p Differential Probe Amplifier with

Dx20-SI Solder-In Tip (Qty. 1), Dx20-SP Square Pin (Qty. 1), Dx20-

QC Quick Connect (Qty. 1)

D410

D420

D610

D620

Hi-Temp Leads

WaveLink Temperature Extension Cables for Dx10.

Includes set of Matched 30" High Temperature Cables (Qty. 1)

and solder-in lead set (Qty. 1)

WaveLink Temperature Extension Cables for Dx20.

Includes set of Matched 30" High Temperature Cables (Qty. 1)

and solder-in lead set (Qty. 1)

Dx10-HiTemp

Dx20-HiTemp

Teledyne LeCroy

8 GHz - 13 GHz

Differential Probe

Model Numbers:

D830-PS

D1030-PS

D1330-PS

A 8 Zi/Zi-A

Zi/Zi-A

General Purpose Probe with Range of Capabilities

Teledyne LeCroy’s WaveLink 8-13 GHz Differential Probes are a medium

bandwidth, general purpose probing solution with high input dynamic range and

offset range capability. These probes support solder-in, positioner (browser), square

pin and SMA/SMP cabled tip/lead connections. The range of capabilities is ideal

for a variety of high speed DDR signals where high dynamic range and large offset

requirements are common.

Features and Benefits

•

Choice of 8, 10, or 13 GHz bandwidth models

•

• 3.5 V

•

pk-pk

dynamic range

±4 V offset range

•

Ideal for DDR3, DDR4, LPDDR3

•

Deluxe soft carrying case

•

Wide variety of tips and leads

– Solder-In Lead

– Positioner (Browser) Tip

– SMA/SMP Lead

– Square Pin Lead

•

SMA/SMP lead set accessory does not require purchase of a different amplifier

WL-PLINK-CASE

Platform/Cable Assembly

(Included in Dxx30-PS)

D830D1030D1330

8GHz10GHz13GHz

DifferentialDifferentialDifferential

AmplifierAmplifierAmplifier

Dxx30-SMA-SMPDxx30-SIDxx30-SP

SMA/SMP Lead Set

Dxx30-PT

Solder-In Lead (Qty. 2)Square Pin

(Optional)

Positioner Tip Browser

(Included in Dxx30-PS)

D830, D830-PS

BandwidthDxx30-SI, Dxx30-SMA-SMP, and

Dxx30-PT Tips

8 GHz (probe only, guaranteed)

8 GHz (system bandwidth,

when used with 808Zi/Zi-A, typical)

Dxx30-SP Tip

3 GHz (probe only, guaranteed)

3 GHz (system bandwidth,

when used with 808Zi/Zi-A, typical)

D1030, D1030-PS

Dxx30-SI, Dxx30-SMA-SMP, and

Dxx30-PT Tips

10 GHz (probe only, guaranteed)

10 GHz (system bandwidth,

when used with 813Zi/Zi-A, typical)

Dxx30-SP Tip

3 GHz (probe only, guaranteed)

3 GHz (system bandwidth,

when used with 813Zi/Zi-A, typical)

D1330, D1330-PS

Dxx30-SI and Dxx30-SMA-SMP Tips

13 GHz (probe only, guaranteed)

13 GHz (system bandwidth,

when used with 813Zi/Zi-A, typical)

Dxx30-PT Tip

10 GHz (probe only, guaranteed)

10 GHz (system bandwidth,

when used with 813Zi/Zi-A, typical)

Dxx30-SP Tip

3 GHz (probe only, guaranteed)

3 GHz (system bandwidth,

when used with 813Zi/Zi-A, typical)

Dxx30-SI and Dxx30-SMA-SMP Tips

35 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Dxx30-PT Tip

40 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Dxx30-SP Tip

132 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Dxx30-SI and Dxx30-SMA-SMP Tips

26 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Dxx30-PT Tip

30 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Dxx30-SP Tip

100 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

<48 nV/√Hz (5.5 mVrms) (typical)

Referred to input, 13 GHz bandwidth.

<52nV/√Hz (5.9 mVrms) (typical)

Referred to input, 13 GHz bandwidth.

Rise Time (10–90%)Dxx30-SI, Dxx30-SMA-SMP, and

Dxx30-PT Tips

50 ps (typical)

System rise time measured

with ≥8 GHz oscilloscope

Dxx30-SP Tip

132 ps (typical)

System rise time measured

with ≥8 GHz oscilloscope

Dxx30-SI, Dxx30-SMA-SMP, and

Dxx30-PT Tips

40 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Dxx30-SP Tip

132 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Rise Time (20–80%)Dxx30-SI, Dxx30-SMA-SMP, and

Dxx30-PT Tips

37.5 ps (typical)

System rise time measured

with ≥8 GHz oscilloscope

Dxx30-SP Tip

100 ps (typical)

System rise time measured

with ≥8 GHz oscilloscope

Dxx30-SI, Dxx30-SMA-SMP, and

Dxx30-PT Tips

30 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Dxx30-SP Tip

100 ps (typical)

System rise time measured

with ≥13 GHz oscilloscope

Noise (Probe)

Noise (System)

<48 nV/√Hz (4.3 mVrms) (typical)

Referred to input, 8 GHz bandwidth.

<52 nV/√Hz (4.6 mVrms) (typical)

Referred to input, 8 GHz bandwidth.

<48 nV/√Hz (4.8 mVrms) (typical)

Referred to input, 10 GHz bandwidth.

<52 nV/√Hz (5.2 mVrms) (typical)

Referred to input, 10 GHz bandwidth.

Input

Input Dynamic Range

Input Common Mode Voltage Range

Input Offset Voltage Range

Non-destructive Input Range

Attenuation

DC Input Resistance (Nominal)

Impedance (Zmin, Typical)

Impedance (Mid-Band, Typical)

3.5Vpk-pk, ±1.75V (nominal)

±5 V (nominal)

±4 V Differential (nominal)

±15 V (nominal)

3.75x (nominal)

200 k

Differential

50 k

Common mode

>250 Ω Differential through entire frequency range using SI tip

Dxx30-SI Lead

470

at 4 GHz, 320

at 6 GHz, 260

at 8 GHz, 250

at 9 GHz, 260

at 10 GHz, 350

at 13 GHz

Dxx30-PT Tip

155

at 4 GHz, 210

at 6 GHz, 140

at 8 GHz, 80

at 9 GHz, 40

at 10 GHz

Product Description

Complete Probe Systems

8 GHz Complete Probe System with Dxx30-SI Solder-In Tip (Qty.

2), Dxx30-SP Square Pin (Qty. 1), and

Dxx30-PT-KIT Positioner Tip Browser (Qty. 1)

10 GHz Complete Probe System with Dxx30-SI Solder-In Tip (Qty.

2), Dxx30-SP Square Pin (Qty. 1), and

Dxx30-PT-KIT Positioner Tip Browser (Qty. 1)

13 GHz Complete Probe System with Dxx30-SI Solder-In Tip (Qty.

2), Dxx30-SP Square Pin (Qty. 1), and

Dxx30-PT-KIT Positioner Tip Browser (Qty. 1)

Product Code

D830-PS

D1030-PS

D1330-PS

Product Description

Positioner Tip (Browser) Kits

WaveLink Dxx30-PT (up to 10 GHz rating) Adjustable

Positioner Tip Kit. For use with Dxx30 amplifiers.

Product Code

Dxx30-PT-KIT

Probe Platform/Cable Assemblies and Adapters

WaveLink ProLink Platform/Cable Assembly Kit with

complete soft carrying case for all probe items.

WL-PLINK-CASE

SMA/SMP Lead Set

Lead set consisting of WaveLink

Dxx30-SMA-SMP-LEADS for use

with Dxx30 amplifiers.

Dxx30-SMA-SMP-LEADS

Amplifier and Probe Tip Modules

WaveLink D830 8 GHz/3.5V

p-p

Differential Probe

Amplifier with Dxx30-SI Solder-In Tip (Qty. 2) and

Dxx30-SP Square Pin (Qty. 1)

WaveLink D1030 10 GHz/3.5V

p-p

Differential Probe

Amplifier with Dxx30-SI Solder-In Tip (Qty. 2) and

Dxx30-SP Square Pin (Qty. 1)

WaveLink D1330 13 GHz/3.5V

p-p

Differential Probe

Amplifier with Dxx30-SI Solder-In Tip (Qty. 2) and

Dxx30-SP Square Pin (Qty. 1)

D830

D1030

D1330

Accessories

Cascade Microtech EZ-Probe Positioner

Probe Deskew and Calibration Test Fixture

EZ PROBE

TF-DSQ

D830-CCNIST

D1030-CCNIST

D1330-CCNIST

Calibration Options

NIST Calibration for D830. Includes test data.

NIST Calibration for D1030. Includes test data.

NIST Calibration for D1330. Includes test data.

Teledyne LeCroy

13 GHz - 25 GHz

Differential Probe

Model Numbers:

D1305-A-PS

D1605-A-PS

D2005-A-PS

D2505-A-PS

LabMaster 10 Zi

LabMaster 9 Zi-A

WaveMaster 8 Zi/Zi-A

SDA11000

SDA13000

SDA18000

Ultra-wideband Architecture for Superior Signal Fidelity

Teledyne LeCroy’s WaveLink

high bandwidth differential probes utilize advanced

differential traveling wave (distributed) amplifier architecture to achieve superior

high frequency true analog broadband performance. Traveling wave (distributed)

amplifiers are commonly used in ultra high frequency broadband amplifiers. This

multi-stage amplifier architecture maximizes gain per stage and minimizes probe

attenuation, which provides very low probe noise and fast rise times.

Features & Benefits

•

Up to 25 GHz bandwidth (probe + oscilloscope)

•

System rise time as fast as 13 ps (20–80%)

•

25 GHz Solder-in solution

•

22 GHz ultra-compact browser tip

Superior probe impedance minimizes AC loading on device under

•

test (DUT)

•

Carbon-composite browser tips optimize signal fidelity and minimize loading

•

Probe noise as low as 14 nV/√Hz (1.6 mV

rms

)

•

Low probe attenuation

Large operating voltage range

±4 V common mode range

±2.5 V offset range

•

2.0 V

pk-pk

dynamic range

Long length Solder-In tip with field replaceable resistors

LPA-2.92

LPA 2.92 to ProLink Adapter:

WL-PLINK-A

WL-2.92MM

Platform/Cable

Assembly:

Assembly

(included in (included in

D1x05-A-PS) D2x05-A-PS)

D1305-AD1605-AD2005-AD2505-A

13 GHz16 GHz20 GHz25 GHz

Differential Amplifier

Dxx05-SIDxx05-PT

Solder-In LeadPositioner

Browser

Tip

BandwidthDxx05-SI and Dxx05-PT Tips

13 GHz (probe only, guaranteed)

13 GHz (system bandwidth,

when used with 813Zi, typical)

D1305-A, D1305-A-PS

Dxx05-SI and Dxx05-PT Tips

16 GHz (probe only, guaranteed)

16 GHz (system bandwidth,

when used with 816Zi, typical)

D1605-A, D1605-A-PS

Dxx05-SI and Dxx05-PT Tips

20 GHz (probe only, guaranteed)

20 GHz (system bandwidth,

when used with 820Zi, typical)

D2005-A, D2005-A-PS

Dxx05-SI Lead

25 GHz (probe only, guaranteed)

25 GHz (system bandwidth,

when used with 825Zi, typical)

Dxx05-PT Tip

22 GHz (system bandwidth,

when used with 825Zi, typical)

20 GHz (probe only, guaranteed)

Dxx05-SI Lead

17.5 ps (typical)

System rise time measured with

≥ 25 GHz oscilloscope

Dxx05-PT Tip

19 ps (typical)

System rise time measured with

≥ 25 GHz oscilloscope

Dxx05-SI Lead

13 ps (typical)

System rise time measured with

≥ 25 GHz oscilloscope

Dxx05-PT Tip

14 ps (typical)

System rise time measured with

≥ 25 GHz oscilloscope

< 18 nV/√Hz (2.8 mV

rms

)

(typical)

Referred to input,

25 GHz bandwidth

< 28 nV/√Hz (4.5 mV

rms

)

(typical) Referred to input,

25 GHz bandwidth

D2505-A, D2505-A-PS

Rise Time (10–90%)Dxx05-SI and Dxx05-PT Tips

32.5 ps (typical)

System rise time measured

with ≥ 13 GHz oscilloscope)

Dxx05-SI and Dxx05-PT Tips

28 ps (typical)

System rise time, measured

with ≥ 16 GHz oscilloscope

Dxx05-SI and Dxx05-PT Tips

20 ps (typical)

System rise time measured

with ≥ 20 GHz oscilloscope

Rise Time (20–80%)Dxx05-SI and Dxx05-PT Tips

24.5 ps (typical)

System rise time measured

with ≥ 13 GHz oscilloscope

Dxx05-SI and Dxx05-PT Tips

21 ps (typical)

System rise time measured

with ≥ 16 GHz oscilloscope

Dxx05-SI and Dxx05-PT Tips

15 ps (typical)

System rise time measured

with ≥ 20 GHz oscilloscope

Noise (Probe)

Noise (System)

Input

< 14 nV/√Hz (1.6 mV

rms

)

(typical)

Referred to input,

13 GHz bandwidth

< 23 nV/√Hz (2.7 mV

rms

)

(typical) Referred to input,

13 GHz bandwidth

< 14 nV/√Hz (1.8 mV

rms

)

(typical)

Referred to input,

16 GHz bandwidth

< 23 nV/√Hz (2.9 mVrms)

(typical) Referred to input,

16 GHz bandwidth

< 18 nV/√Hz (2.5 mV

rms

)

(typical)

Referred to input,

20 GHz bandwidth

< 28 nV/√Hz (4.0 mV

rms

)

(typical) Referred to input,

20 GHz bandwidth

Input Dynamic Range

Input Common Mode Voltage Range

Input Offset Voltage Range

Non-destructive Input Range

Attenuation

DC Input Resistance (Nominal)

Impedance (Zmin, typical)

3.5x (nominal)

Dxx05-SI Lead

> 300

Differential through

entire frequency range

4.5x (nominal)

1.1 k

Differential

100 k

Common mode

Dxx05-SI Lead Dxx05-SI Lead Dxx05-SI Lead

> 300

Differential through

> 230

Differential through

> 120

Differential through

entire frequency rangeentire frequency rangeentire frequency range

2.0 V

pk-pk

, (±1.0 V) (nominal)

±4 V (nominal)

±2.5 V Differential (nominal)

±10 V (nominal)

Impedance (mid-band, typical)

Dxx05-PT TipDxx05-PT TipDxx05-PT TipDxx05-PT Tip

>160

Differential through

>160

Differential through

>160

Differential through

>160

Differential through

entire frequency rangeentire frequency rangeentire frequency rangeentire frequency range

Dxx05-SI Lead: 300

at 6 GHz, 525

at 13 GHz, 600

at 16 GHz, 300

at 20 GHz, 120

at 25 GHz

Dxx05-PT Tip: 160

at 6 GHz, 450

at 13 GHz, 240

at 16 GHz, 210

at 20 GHz

Product Description

Complete Probe Systems

13 GHz Complete Probe System with Solder-In Tip

(13 GHz) and Positioner Tip Browser (13 GHz)

16 GHz Complete Probe System with Solder-In Tip

(16 GHz) and Positioner Tip Browser (16 GHz)

20 GHz Complete Probe System with Solder-In Tip

(20 GHz) and Positioner Tip Browser (20 GHz)

25 GHz Complete Probe System with Solder-In Tip

(25 GHz) and Positioner Tip Browser (22 GHz)

Product Code

D1305-A-PS

D1605-A-PS

D2005-A-PS

D2505-A-PS

Product Description

Accessories

Cascade Microtech EZ-Probe Positioner

Probe Deskew and Calibration Test Fixture

Product Code

EZ PROBE

TF-DSQ

D1305-A-CCNIST

D1605-A-CCNIST

D2005-A-CCNIST

D2505-A-CCNIST

Dxx05-SI

Dxx05-SI-RESISTORS

Dxx05-PT

Dxx05-PT-TIPS

PK600ST-3

PK600ST-4

Dxx0-PT-TAPE

Dxx05-PT-GUIDES

Calibration Options

NIST Calibration for D1305. Includes Test Data

NIST Calibration for D1605. Includes Test Data

NIST Calibration for D2005. Includes Test Data

NIST Calibration for D2505. Includes Test Data

Amplifier and Probe Tip Modules

WaveLink D1305 13 GHz/1.6 V

pk-pk

Differential Probe

Amplifier with Dxx05-SI Solder-In Tip (Qty. 2)

WaveLink D1605 16 GHz/1.6 V

pk-pk

Differential Probe

Amplifier with Dxx05-SI Solder-In Tip (Qty. 2)

WaveLink D2005 20 GHz/1.6 V

pk-pk

Differential Probe

Amplifier with Dxx05-SI Solder-In Tip (Qty. 2)

WaveLink D2505 25 GHz/1.6 V

pk-p

Differential Probe

Amplifier with Dxx05-SI Solder-In Tip (Qty. 2)

D1305-A

D1605-A

D2005-A

D2505-A

Replacement Parts

Replacement Dxx05-SI 13–25 GHz Solder-In Lead with

Qty. 5 Spare Resistors

Replacement SI Resistor Kit for Dxx05-SI Solder-In Tip

Replacement Dxx05-PT Positioner Tip

Qty. 4 Replacement Carbon Composite Pogo-pin Tips

Replacement Probe Tip Holder Kit

Replacement Platform/Cable Assembly Mounting Kit

Qty. 1 Package of Black Adhesive Pads (10/pkg.) and

Qty. 1 Package of White Adhesive Pads (10/pkg.)

Qty. 1 Package of Adhesive Probe Connection Guides (200

individual guides/package)

Positioner Tip (Browser) Kits

WaveLink Dxx05-PT (Up to 22 GHz Rating) Adjustable

Positioner Tip Kit. For use with Dxx05 Amplifiers

Dxx05-PT-KIT

Probe Platform/Cable Assemblies and Adapters

WaveLink ProLink Platform/Cable Assembly Kit

for ≥ 13 GHz WaveLink Probes

WaveLink 2.92 mm Platform/Cable Assembly Kit

for ≥ 20 GHz WaveLink Probes

ProLink to 2.92 mm Adapter with Probe Power

and Communication Pass Through

WL-PLINK-A-CASE

WL-2.92MM-CASE

LPA-2.92

Differential active probes are like two probes in one. Instead of measuring

a test point in relation to a ground point (like single-ended active probes),

differential probes measure the difference in voltage of a test point in

relation to another test point.

Opposite page:

HVD3000 Series High Voltage Differential Probes

working with an HDO8000

HVD3102

HVD3106

ADP300

ADP305

The HVD3000 high voltage differential probes provide high CMRR over a

broad frequency range to simplify the measurement challenges found in

noisy, high common-mode power electronics environments. The probe’s

design is easy-to-use and enables safe, precise high voltage floating

measurements.

Features

•

Differential voltage measurement capability up to 1000 Vrms

•

Exceptional common-mode rejection ratio (CMRR) across a broad

frequency range

•

Wide differential voltage range of 1500 Vp-p, 2000 Vp-p before saturation

for capture of short duration overshoots

•

High offset capability at both high and low attenuation

•

1% DC and low frequency gain accuracy

•

ProBus active probe interface with automatic scaling

•

Auto-zero capabilities

Specifications

HVD3102HVD3106HVD3106-6M

80 MHz

4.4 ns

Bandwidth

Rise Time (10-90)

Differential Voltage Range

Common Mode Voltage Range

Maximum Input Voltage to Earth

Max Safe Input

Sensitivity

Gain Accuracy

Slew Rate

Attenuation

Input Impedance

Input Coupling

Output Coupling

Output Termination

Interface

Input Lead Length

Cable Length (input lead to

oscilloscope connection)

25 MHz120 MHz

14 ns2.9 ns

High Attenuation

1500 V (DC + peak AC) from 7 to 400 V/div with up to 1500 V offset.

2000 V maximum typical measurable differential voltage before saturation

Low Attenuation

27.6 V (DC + peak AC) from 100 mV/div to 6.9 V/div with up to 150 V offset.

±1500 V (DC + peak AC), 1000 V

rms

(CAT III) (either input to ground)

1000 V

rms

(CAT III) (either input to ground)

1000 V

rms

CAT III

100 mV/div to 6.9V/div (100X)100 mV/div to 6.9V/div (50X)

7V/div to 400V/div (1000X)7V/div to 400V/div (500X)

1% (LF, guaranteed)

100 V/ns (maximum)400 V/ns (maximum)

100x / 1000x50x / 500x

10 MΩ || 2.5 pF (between inputs), 5 MΩ || 5.0 pF (either input to ground)

DC only

AC, DC, GND

1 MΩ

ProBus

40 cm input lead length

2.25 m

100 mV/div to 6.9V/div (50X)

7V/div to 400V/div (500X)

400 V/ns (maximum)

50x / 500x

6.80 m

Noise and Rejection

CMRR (Typical)DC - 60 Hz: 80 dB

1 MHz: 65 dB

5 MHz: 40 dB

20 MHz: 30 dB

100X: <15 mV

rms

1000X: <85 mV

rms

(referred to input)

Noise (Probe)

DC - 60 Hz: 80 dB

1 MHz: 65 dB

5 MHz: 40 dB

20 MHz: 30 dB

100 MHz: 30 dB

50X: <30 mV

rms

500X: <150 mV

rms

(referred to input)

DC - 60 Hz: 80 dB

1 MHz: 65 dB

5 MHz: 40 dB

20 MHz: 30 dB

80 MHz: 30 dB

50X: <30 mV

rms

500X: <150 mV

rms

(referred to input)

Environmental

Temperature (Operating)

Temperature (Non-Operating)

Humidity (Operating)

Humidity (Non-Operating)

Altitude (Operating)

Altitude (Non-Operating)

Pollution Degree

0°C to 50°C

-40°C to 70°C

5% to 80% RH (Non-Condensing) up to 30°C, decreasing linearly to 50% RH at 50°C

5% to 95% RH (Non-Condensing), 75% RH above 30°C, 45% RH above 40°C

2,000 m maximum (3,000 m maximum at 25°C)

10,000 m

2, Indoor use only

Ordering Information

Product Description

25 MHz, High Voltage Differential Probe

120 MHz, High Voltage Differential Probe

80 MHz, High Voltage Differential Probe with 6m cable

High Voltage Replacement Accessories Kit (Includes 2 each, 1 Black, 1 Red):

Safety Alligator Clips, Plunger Pincer Clips, Plunger Hook Clips, Plunger Alligator Clips, Spade Terminals

Safety Alligator Clips (Quantity 2 - 1 Black, 1 Red)

Plunger Pincer Clips (Quantity 2 - 1 Black, 1 Red)

Plunger Hook Clips (Quantity 2 - 1 Black, 1 Red)

Plunger Alligator Clips (Quantity 2 - 1 Black, 1 Red)

Spade Terminals (Quantity 2 - 1 Black, 1 Red)

Product Code

HVD3102

HVD3106

HVD3106-6M

PK-HV-001

PK-HVA-01

PK-HVA-02

PK-HVA-03

PK-HVA-04

PK-HVA-05

The AP031 is a low cost, battery operated active differential probe intended

for measuring higher voltages. The differential techniques employed permit

measurements to be taken at two points in a circuit without reference to the

ground, allowing the oscilloscope to be safely grounded without the use of

opto-isolators or isolating transformers.

Features

•

Safe floating measurements

•

15 MHz bandwidth

•

700 V maximum input voltage

Works with any 1 MΩ input oscilloscope

AP031 Specifications

Attenuation

Bandwidth

÷10 / ÷100

Input R

15 MHz

Differential Mode Range

4 M

±70 V / ±700 V DC + Peak AC

Common Mode Range

CMRR

±700 V DC + Peak AC

86 dB @ 50 Hz

56 dB @ 200 kHz

Power Requirements: four AA batteries

Ordering Information

Product Description Product Code

700 V, 15 MHz Differential Probe (÷10, ÷100)

1,400 V, 20 MHz High-Voltage Differential Probe

AP031

1,400 V, 100 MHz High-Voltage Differential Probe

AP300

AP305

ADP30X high-voltage active probes are safe, easy-to-use, and

ideally suited for measuring power electronics. The ADP300

is designed for troubleshooting low-frequency power devices

and other circuits where the reference potential is elevated

from the ground or the location of the ground is unknown.

The ADP305 is designed for measuring the high-speed

floating voltages found in today’s power electronics.

Features

•

20 MHz and 100 MHz bandwidth

1,000 V

rms

common mode voltage

1,400 V

peak

differential voltage

•

EN 61010 CAT III

80 dB CMRR at 50/60 Hz

ProBus system

Full remote control

ADP30X Specifications

Electrical Characteristics

Bandwidth

Differential Voltage

Common Mode Voltage

Low-Frequency Accuracy (Probe Only)

CMRR

Max. Slew Rate (Referenced to Input)

AC Noise (Referenced to Input)

Attenuation

Input Impedance

Sensitivity

Interface

General Characteristics

Overall Length

Input Connectors

Operating Temperature

Warranty

*Requires AP-1M for oscilloscopes with 50 Ω only inputs

20 MHz (ADP300)

100 MHz (ADP305)

1,400 V peak

1,000 V rms CAT III

1% of Reading

50/60 Hz 80 dB (10,000:1)

100 kHz 50 dB (300:1)

60,000 V/µs (ADP300)

300,000 V/µs (ADP305)

50 mV rms

÷100/÷1000 (automatically selected by scope)

Between inputs 8 MΩ, 6 pF

Each input to ground 4 MΩ, 1 pF

1 V/div to 350 V/div (ADP300)

200 mV/div to 350 V/div (ADP305)

ProBus, 1 MΩ*

2 m

4 mm Shrouded Banana Plug

0 ˚C to 50 ˚C

1 year

Differential amplifiers are intended to act as signal conditioning preamplifiers

for oscilloscopes and network and spectrum analyzers, providing differential

measurement capability to instruments having only a single-ended input. The

“-PR2” version of each amplifier is a dual channel unit. The DXC series

differential input cables are matched to the characteristics of the amplifier.

Opposite page:

DA1855A Differential Amplifier working with the

HDO6000 oscilloscope for power measurement.

DA1855A

The DA1855A is a stand-alone, high-in proportion to their attenuation ratio

performance 100 MHz differential but do not exceed their maximum input

amplifier. It is intended to act as a voltage rating. Effective gain of the

signal conditioning preamplifier for DA1855A, including probe attenuation,

oscilloscopes, digitizers and spectrum amplifier gain and attenuator settings, is

analyzers, providing differential automatically displayed.

measurement capability to instruments

having only a single-ended input. When

The DA1855A features a built-in

used with a DA1855A, oscilloscopes

Precision Voltage Generator (PVG) that

can obtain Common Mode Rejection

can be set to any voltage between

Ratio (CMRR) and overdrive recovery

±15.5 V (±10 V in Differential Offset)

performance levels previously

with up to 100 µV resolution. The PVG’s

unobtainable.

output can be selected as an input to

the inverting (-) input of the amplifier for

Amplifier gain can be set to 1 or operation as a differential comparator,

10 A built-in input attenuator can be or applied internally as a true

separately set to attenuate signals by differential offset voltage independent

a factor of 10, providing gains of 10, of oscilloscope offset. The differential

1, or 0.1 and common mode dynamic amplifier is also available in a 2 channel

range of ±15.5 V (÷1) or ±155 V (÷10). model. In addition, a rackmount is

Optional probes increase the maximum available for each model for easy

input signal and common mode ranges installation with other instruments.

DXC100A

÷100 or ÷10 Selectable, 250 MHz Passive Differential Probe Pair

DC to 100 MHz Bandwidth with DA1855A

•

Max Input Voltage 500 V

Selectable 10 or 100 Attenuation Factor

•

1.2 m Cable Length

DXC200

DC to 10 MHz Bandwidth with DA1822

÷1, 50 MHz, Passive Differential Probe Pair

•

D C to 50 MHz with DA1855A

DC to 10 MHz with DA1822A

M ax Input Voltage 500 V (Limited to Amplifier Max Input Voltage)

x1 Differential Probe Pair

0.7 m Cable Length

DXC5100

÷100, 2.5KV Passive High Voltage Probe Pair. Requires DA101 for full performance

DA101

÷10, 1MΩ Passive Attenuator for DXC series probes

Ordering Information

Product Description

1 Ch, 100 MHz Differential Amplifier with Precision Voltage Source

2 Ch,100 MHz Differential Amplifier with Precision Voltage Source

DA1855A with Rackmount

DA1855A with Rackmount (must be ordered at time of purchase, no retrofit)

÷100 or ÷10 Selectable, 250 MHz Passive Differential Probe Pair

÷1, 50 MHz Passive Differential Probe Pair

÷100, 250 MHz 2.5 kV, High Voltage Probe Pair (requires DA101 for full performance)

÷10 1 MΩ Passive Attenuator for DXC Series Probes

*Must be used with DA Series Differential Amplifiers

Product Code

DA1855A

DA1855A-PR2

DA1855A-RM

DA1855A-PR2-RM

DXC100A*

DXC200*

DXC-5100*

DA101*

High voltage probes are suitable for a wide range of applications where

high-voltage measurements must be made safely and accurately. There

are several fixed attenuation probes covering a range from 1 kV to 6 kV

and varying transient overvoltage ratings. All of these high voltage probes

feature a spring loaded probe tip and a variety of standard accessories

to make probing high voltages safe and easy. Additionally, all of the high

voltage probe have a probe sense pin to automatically configure the

oscilloscope for use with the probe.

Opposite page:

PPE Series High Voltage Probe

The HVP120 is a high voltage passive probe designed for probing up to

1,000 Vrms and capable of handling up to 6,000 V peak transients. Its

fast rise time and excellent frequency response make it suitable for a wide

variety of high voltage measurement applications. The HVP120 features

a spring loaded probe tip and a variety of standard accessories to make

probing high voltages safe and easy.

Features

•

400 MHz probe bandwidth

•

900 ps rise time

•

1000 Vrms maximum input

•

Up to 6 kV transient overvoltage

Electrical Characteristics

Bandwidth400 MHz

Risetime (10% - 90%)900 ps (typical)

Maximum Input Voltage*

Measurement Category II1000 Vrms

Measurement Category I4000V Transient Overvoltage at 1000 Vrms

6000V Transient Overvoltage at 0 Vrms

Pollution Degree* 2

Input Capacitance7.5 pF (typical)

Compensation Range10 pF - 50 pF (typical)

Attenuation Ratio100:1 ± 2%

Environmental

Temperature (Operating)0°C to 50°C

Temperature (Non-Operating)-40°C to 71°C

Humidity (Operating)80% RH (Non-Condensing) up to 31°C,

decreasing linearly to 40% RH at 50°C

Altitude (Operating)up to 2,000 m

Altitude (Non-Operating)up to 15,000 m

General Characteristics

Weight (probe) 67 g (0.15 lbs)

Cable Length2 m (6.56 ft)

Probe Tip Diameter5 mm (0.20 inches)

* As defined in IEC 61010-031

Typical Voltage Derating HVP120

Measurement Category I

1200

[

]

8000

7000

[

]

HVP120

RMS vs. Peak Pulse Voltage

Measurement Category I

1000

800

600

400

200

100K1M10M

Frequency [Hz]

6000

5000

4000

3000

2000

1000

100M1G

1000

AC rms or DC [V]

Product Description

400 MHz, High Voltage Passive Probe

High Voltage Replacement Accessories Kit

Product Code

HVP120

PK-HV-002

Replacement Accessories

One of each of the following accessories are included with the HVP120. Replacement quantities are listed below.

Coding Rings (set) 4 Colors (Qty 3 also included standard)

Ground Lead 22 cm to 4 mm Banana plug (Qty 1)

Solid Tip 0.8 mm (Qty 5)

Spring Tip 0.8 mm (Qty 5)

BNC Adapter 5.0-L (Qty 1)

Insulating Cap 5.0-L (Qty 1)

Protection Cap 5.0-L (Qty 1)

Sprung Hook 5.0-L (Qty 1)

Adjustment Tool T (Qty 1)

Flexible Adapter 5.0-L (Qty 1)

Safety Alligator Clip red (Qty 1)

Ground Lead 22 cm (Qty 1)

PK1-5MM-106

PK1-5MM-122

PK1-5MM-125

PK1-5MM-126

PK1-5MM-127

PK1-5MM-128

PK1-5MM-129

PK1-5MM-130

PK1-5MM-131

PK1-5MM-132

PK1-5MM-133

PK1-5MM-134

The PPE series includes four fixed-attenuation probes covering a range from

2 kV to 6 kV, and one switchable probe providing ÷10/÷100 attenuation for

voltage inputs up to 1.2 kV. All fixed-attenuation, standard probes automatically

rescale compatible Teledyne LeCroy oscilloscopes for the appropriate attenuation

of the probe.

Features

•

Safe, accurate high-voltage measurement

1.2 kV to 6 kV

High-Voltage Probes Selection Guide Specifications

Types Bandwidth Input R Input C Attenuation Maximum Probe Cable

(MHz) (Ω) (pF) Voltage Encoding

PPE1.2kV* 400 50 M < 6 ÷10 / ÷100 600 V/1.2 kV No 2 m

PPE2kV* 400 50 M < 6 ÷100 2 kV Yes 2 m

PPE4kV* 400 50 M < 6 ÷100 4 kV Yes 2 m

PPE5kV* 400 50 M < 6 ÷100 5 kV Yes 2 m

PPE6kV* 400 50 M < 6 ÷1000 6 kV Yes 2 m

Trimming Tool

Security Ground Lead

Ground Lead

(22 cm)

Flexible 4 mm

Security Adapter

BNC AdapterInsulating TipIC Insulating TipStraight Tip

(0.8 mm)

Spring Contact Tip

(0.8 mm)

Sprung Hook

Crocodile Clip (Black)Crocodile Clip (Red)

Ordering Information

Product Description

÷10/÷100; 200/300 MHz; 5 MΩ/50 MΩ High-Voltage Probe, 600 V/1.2 kV max. Voltage DC

÷100; 400 MHz; 50 MΩ High-Voltage Probe, 2 kV max. Voltage DC and Peak AC

÷100; 400 MHz; 50 MΩ High-Voltage Probe, 4 kV max. Voltage DC and Peak AC

÷100; 400 MHz; 50 MΩ High-Voltage Probe, 5 kV max. Voltage DC and Peak AC

÷1000; 400 MHz; 50 MΩ High-Voltage Probe, 6 kV max. Voltage DC and Peak AC

Accessory Kit for PPE1.2kV, 2kV, 4kV, 5kV, and 6kV

Sprung Hook (red)

Ground Lead (22 cm)

Crocodile Clip

Probe Tip to BNC Adapter

Spring Tip (0.8 mm)

Rigid Tip V2A

Supplied with probe:

* Probe Kit: Trimming tool, ground lead, rigid tip, IC insulator, BNC adapter, tip insulator, spring hook, red crocodile clip.

4 mm safety ground lead, and green/yellow crocodile clip.

Product Code

PPE1.2KV

PPE2KV

PPE4KV

PPE5KV

PPE6KV

PK103

PK103-1

PP005-GL22

PK30x-2

PP005-BNC

PP005-ST8

PP005-RT

Teledyne LeCroy’s wide-band multi-mode optical-to-electrical converters

are designed for measuring optical communications signals. Their broad

wavelength range and multi-mode input optics make these devices ideal for

applications including Ethernet, Fibre Channel, and ITU telecom standards.

Available to support optical data rates up to 11.3 Gb/s with reference

receivers, or slightly higher without reference receivers.

These wide- band multi-mode optical-to-electrical converters are designed

for measuring optical communications signals. They connect to Teledyne

LeCroy real-time oscilloscopes and provide capability for physical layer

signal assessment using a variety of oscilloscope tools, such as SDAIII-

CompleteLinQ Serial Data Eye, Jitter, Noise and Crosstalk Analysis, mask

testing, serial triggering and decoding, and other compliance and debug

tools. Maximum data rate test capability is >11.317 Gb/s with reference

receiver, or 12.5 Gb/s without.

Opposite page:

OE455 Optical Probe working with a WaveRunner 640 Zi oscilloscope.

Teledyne LeCroy

Optical Probe

Model Numbers:

OE695G

OE425

OE455

OE525

OE555

OE695G

Teledyne LeCroy’s OE695G wide-band optical-to-electrical converter is ideal for

measuring optical datacom and telecom signals with data rates from 622 Mb/s to

12.5+ Gb/s. Connection to a real-time Teledyne LeCroy oscilloscope is through the

2.92mm interface, with a provided adapter to connect to ProLink interfaces.

Features

•

Compatible with Teledyne LeCroy WavePro 7 Zi/Zi-A, WaveMaster 8 Zi/Zi-A,

LabMaster 9 Zi-A, and LabMaster 10 Zi oscilloscopes

•

Frequency range DC to 9.5 GHz (electrical, -3 dB)

•

Reference receiver support from 8GFC to 10GFC FEC, or Custom (<12.5Gb/s)

•

Full bandwidth mode (no reference receiver applied)

•

62.5/125 µm multi-mode or single-mode fiber input

•

+7 dBm (5 mW) max peak optical power

•

Low noise (as low as 25 pW/√Hz)

•

Ideal for Eye Mask, Extinction Ratio, and Optical Modulation Amplitude

(OMA) testing

Specifications

Optical Wavelength Range780 to 1550 nm (calibrated range)

750 to 1650 nm (usable range)

Maximum Modulation

DC to 8.625 GHz (-3 dBe, electrical)

Bandwidth

DC to 11.64 GHz (-3 dBo, optical)

(Reference Receiver Applied)

DC to 9.5 GHz (-3 dBe)

DC to 12 GHz (-6 dBe)

DC to 17 GHz (-14 dBe)

(+/-1 dBe passband variations typical, no Reference

Receiver Applied)

Reference Receiver ±1.6 dBe up to Fref =0.75*bit rate

Uncertainty

±4 dBe 2*Fref setting (typical)

±0.85 dBe up to Fref =0.75*bit rate

±4 dBe 2*Fref setting

(on matched oscilloscope input channel 4 with 11, 17,

20, 30, 39, 50, 75, 90, or

100 mV/div gain ranges) with purchase of OE695G-

REFCAL)

Reference Receiver 8GFC, OC192/STM64,10GBASE-W,10GBASE-R,

Settings

10GFC, ITU-T G.975 FEC, ITU-T G.709 FEC, 10GbE FEC,

10GFC FEC, Custom (622 Mb/s to 12.5 Gb/s),

None (Maximum Bandwidth)

Noise Equivalent Power25 pW/

50 pW/

√

Average noise spectral density 0-10 GHz using most

√

Hz @ 1310 nm (typical)

Hz @ 850 nm (typical)

sensitive vertical scale

Rise Time (10-90%)33 ps (typical, no reference receiver applied)

Connector TypeFC/PC, compatible with 62.5/125 µm Multi-Mode fiber,

or mechanically compatible Single-Mode fiber

Maximum Optical -2 dBm (typical), -3 dBm (minimum) at 1550/1310 nm

Linear Input

+4 dBm (typical), +3 dBm (minimum) at 850 nm

(1 dB Compression Point)

Maximum Optical Power

+7 dBm (5 mW) Peak

Conversion Gain (typical)0.17 V/mW (785 nm)

0.21 V/mW (850 nm)

0.33 V/mW (1310 nm)

0.33 V/mW (1550 nm)

OE425/OE455/OE525/OE555

The O/E converters contain calibration data that can be used to create optical

reference receivers for SONET/SDH (up to OC48/STM16), Fibre Channel, Gigabit

Ethernet, and other optical standards. This feature is available when the O/E is

used on a supported oscilloscope. The universal reference receiver supports any

data rate up to 3 GHz and remains calibrated on any channel of the oscilloscope.

Features

•

Frequency range to 5 GHz (6 GHz optical)

6 2.5 µm or narrower multi-mode or single-mode

fiber input

Broad wavelength range:

– 500–870 nm (OE425, OE525)

– 950–1630 nm (OE455, OE555)

High responsivity

Low noise

I ncluded Accessories:

Multi-mode optical fiber jumper FC-FC

FC to ST adapter

FC to SC adapter

•

Specifications

Wavelength Range

Conversion Gain

Bandwidth

Equivalent Noise

Maximum Optical Power

(at 5% Saturation)

Rise Time

Maximum Safe Input

Temperature Drift

Frequency Response Ripple

Connector Type

OE425/OE525

500 – 870 nm

460 – 870 nm

(0.1 V/mW)

0.5 V/mW

5 GHz

(6 GHz optical)

2.2 µW rms

2.2 mW

90 ps

5.5 mW

0.00275 dB / °C

1.1 dB

FC/PC

OE455/OE555

950 – 1630 nm

800 – 1630 nm

(0.1 V/mW)

1.1 V/mW

3.5 GHz

(4.5 GHz optical)

1.0 µW rms

1.0 mW

108 ps

2.5 mW

0.00275 dB / °C

1.1 dB

FC/PC

Ordering Information

Product Description

Optical-to-Electrical Converter, 785 to 1550 nm, 2.92 mm connector with ProLink adapter

Optical-to-Electrical Converter, 500–870 nm ProBus BNC Connector

Optical-to-Electrical Converter, 950–1630 nm ProBus BNC Connector

Optical-to-Electrical Converter, 500–870 nm ProLink BMA Connector

Optical-to-Electrical Converter, 950–1630 nm ProLink BMA Connector

Product Code

OE695G

OE425

OE455

OE525

OE555

Passive probes are the standard probe provided with most

oscilloscopes. Typical passive probes provide a ÷10 attenuation and

feature a high input resistance of 10 MΩ. This high input resistance

means that passive probes are the ideal tool for low frequency signals

since circuit loading at these frequencies is minimized. Passive probes

are designed to handle voltages of at least 400 V, some as high as

600 V. Teledyne LeCroy passive probes feature an attenuation sense

pin which tells the oscilloscope to scale the waveforms automatically

requiring no user input.

Teledyne LeCroy

Passive Probe

Model Numbers:

PP006A

PP007-WR

PP008

PP009

PP010

PP011

PP016

PP017

PP018

PP019

PP020

Each passive probe is recommended for a certain oscilloscope, using the right

passive probe with the right oscilloscope means that the probe can be properly

compensated across the entire bandwidth. Using probes with a different

oscilloscope will only let you compensate for low frequencies.

Features

•

Bandwidth from 200 MHz to 500 MHz

P robe encoding ring for automatic scale factor readout on Teledyne LeCroy

oscilloscopes

Specifications

Types Bandwidth Input R Input C Attenuation Maximum Diameter

Voltage

PP006A 500 MHz 10 MΩ 12 pF ÷10 600 V 5 mm

PP007-WR 500 MHz 10 MΩ 9.5 pF ÷10 400 V 2.5 mm

PP008 500 MHz 10 MΩ 9.5 pF ÷10 400 V 2.5 mm

PP009 500 MHz 10 MΩ 9.5 pF ÷10 400 V 2.5 mm

PP010 500 MHz 10 MΩ 9.5 pF ÷10 400 V 2.5 mm

PP011 50 MHz 10 MΩ 9.5 pF ÷10 400 V 5 mm

PP016 300 MHz/ 10 MΩ/ 12 pF/ ÷10/ 600 V 5 mm

10 MHz 1 MΩ 46 pF ÷1

PP017 200 MHz 10 MΩ 12 pF ÷10 600 V 5 mm

PP018 500 MHz

10 MΩ

10 pF

÷10

600 V

5 mm

PP019 200 MHz 10 MΩ 12 pF ÷10 500 V 5 mm

PP020 500 MHz

10 MΩ

11 pF

÷10

500 V

5 mm

Ordering Information

Product Description Product Code

÷10, 500 MHz 10 M

ΩPP006A

÷10, 500 MHz 10 M

Passive Probe

Passive Probe PP007-WR

÷10, 500 MHz 10 M

ΩPP008

÷10, 200 MHz 10 M

Passive Probe

Passive Probe PP009

÷10, 500 MHz 10 M

Ω Passive Probe PP010

÷10, 300 MHz 10 MΩ Passive Probe

Ω Passive Probe PP011

÷10, 250 MHz 10 MΩ Passive Probe

PP016

÷10, 500 MHz 10 M

PP017

÷10, 200 MHz 10 M

ΩPP018

÷10, 500 MHz 10 M

Passive Probe

PP019

PP020

Passive Probe Accessories

for PP009, and PP011 Series

PK1-5MM-105

IC-Cap 5.0

Insulating Cap

PK1-5MM-108

IC-Cap 5.0

2.54 mm pitch; black

Protection Cap 5.0

black

PK1-5MM-103

Adjustment Tool

PK1-5MM-107

PCB Adapter 5.0

K1-5MM-106

Set Coding Rings

3x4 colors

PK1-5MM-102

Ground Lead 11 cm

PK1-5MM-104

Rigid Tip 0.8 mm

PK1-5MM-118

Ground Spring 5.0

PK1-5MM-101

Sprung Hook II 5.0

black

PK1-5MM-117

Flexible Adapter

5.0 to 5 mm

banana plug

PK1-5MM-113

Pico hook U+2122

PK1-5MM-116

Flexible Adapter

5.0 to 2 mm

banana plug

PK1-5MM-114Y,

PK1-5MM-114G

QFP IC-Clip 13 mm long

down to 0.5 mm pitch

( X : 4 = yellow; 5 = green )

PK1-5MM-109

Spring Tip 0.8 mm

PK1-5MM-123

HF Compensated

Ground Lead 22 cm

PK1-5MM-122

Ground Lead 22 cm

to 4 mm banana plug

PK1-5MM-124

Spring Tip 0.38 mm

PK1-5MM-121

Ground Lead 22 cm

to 2 mm banana plug

PK1-5MM-111

Adapter 5.0 to

0.8 mm socket

PK1-5MM-120

Ground Lead 11

cm to 0.8 mm plug

PK1-5MM-110

BNC Adapter 5.0

PK1-5MM-115Y

PK1-5MM-115G

QFP IC-Clip short

down to 0.5 mm pitch

( X : 4 = yellow; 5 = green )

PK1-5MM-112

Dual Adapter

5.0 to 0.8 mm socket

PK1-5MM-119

Ground Lead 11 cm to miniclip

Passive Probe Accessories

for PP007 and PP008 Series

PK1-5MM-103

Adjustment Tool

PK007-007

Insulating Cap

Protection Cap

PK007-008

IC Cap

0.5 mm pitch

(green)

PK007-009

IC Cap

0.65 mm pitch

(blue)

PK007-010

IC Cap

0.8 mm pitch

(gray)

PK007-011

IC Cap

1.0 mm pitch

(brown)

PK007-012

IC Cap

1.27 mm pitch

(black)

PK007-006

Color Coding Rings

(set)

PK007-030

High Frequency

Compensated Ground Lead

PK007-005

Spring Tip 0.5 mm

PK007-001

Sprung Hook

PK007-031

BNC Adapter

PK007-002

Standard Ground Lead

PK007-004

Rigid Tip 0.5 mm

PK007-015

PCB Adapter

PK007-023

Adapter, 4 mm plug

PK007-016

Ground Spring

PK007-014

10 Copper Pads

( 2 x 2 cm )

PK007-022

Adapter, 2 mm plug

Device Under

Test

PK007-013

Ground Blade

PK007-029

Ground Lead with 4 mm plug

PK007-020

Micro Clip, Long

PK007-017

Single Lead Adapter

PK007-025

Probe Tip Ground Lead

with Alligator Clip

PK007-028

Ground Lead

with 2 mm plug

PK007-021

Micro Clip, Short

PK007-024

Probe Tip Ground Lead

with 0.8 mm Socket

PK007-018

Dual Lead Adapter

PK007-019

Pico Hook

PK007-026

Ground Lead with

mini clip

PK007-027

Ground Lead with 8 mm socket

Teledyne LeCroy

Transmission Line Probe

Model Number:

PP066

Transmission line probes are a special type of passive probe designed for use at

very high frequencies. They replace the high impedance probe cable found in a

traditional passive probe with a precision transmission line, with a characteristic

impedance that matches the oscilloscope input (50

Ω)

. This greatly reduces

the input capacitance to a fraction of a picofarad, minimizing the loading of

high frequency signals. A matching network at the tip increases the DC input

resistance. While they have lower DC input resistance than a traditional passive

probe (usually 500

to 5 k

), the input impedance of these probes remains

nearly constant over their entire frequency range. A traditional ÷10 passive probe

will have a 10 M

input impedance at DC, however this impedance drops rapidly

with frequency, passing below the input impedance of a transmission line probe at

less than 100 MHz.

In some applications, transmission line probes offer advantages over active

probes. In addition to being less expensive, their passive design is more robust

to over voltage and ESD exposure. They are useful in applications producing fast

rising, narrow pulses with amplitudes which exceed the dynamic range of active

probes. They also tend to have less parasitic effects on frequency response.

PP066

The PP066 is a high-bandwidth passive probe designed for use

with the WaveMaster and other high-bandwidth oscilloscopes

with 50 Ω input termination. This very low capacitance probe

provides an excellent solution for higher frequency applications,

especially the probing of transmission lines with 20–100 Ω

impedance. The PP066 accommodates a wide range of

applications, including probing of analog and digital ICs

commonly found in computer, communications, data storage,

and other high-speed designs.

Features:

•

Interchangeable attenuator tips

•

Signal integrity at high bandwidth

•

Standard SMA cable connection

Ultra low capacitance

PP066 Specifications

Electrical Characteristics

Bandwidth

Risetime

DC to 7.5 GHz

Input Capacitance

< 47 ps

Input Resistance

< 0.20 pF

Maximum Voltage

1000

(÷10 cartridge)

15 V rms

(÷20 cartridge)

Cable Length 1 m

Ordering Information

Product DescriptionProduct Code

7.5 GHz Low Capacitance Passive Probe

(÷10, 1 kΩ; ÷20, 500 Ω)

PP066

Included with PP0066

PACC-AD001, SMA to BNC Adapter

1-800-5-LeCroy

Local sales offices are located throughout the world.

Visit our website to find the most convenient location.

tlec_probecatalog-06apr15

Product or brand names are trademarks or requested trademarks of their respective holders.