电力电子设备高压探头
Read Selecting Best Probe in 5 Minutes App Note
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Read Selecting Best Probe in 5 Minutes App Note
">性能最佳的高压探头
Read Selecting Best Probe in 5 Minutes App Note
">
Teledyne LeCroy 高压探头以其卓越的共模抑制比 (CMRR) 和信号保真度以及高精度而著称。 电流探头和电流传感器适配器也可用于提供精确的交流、直流和脉冲电流测量。
阅读在 5 分钟内选择最佳探头的应用说明
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There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series (Si) or DL-ISO Series (SiC/GaN)
Might have better performance but maybe not worth high price. CMRR advantage not as helpful at 48 Vdc
Conduction loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Switching Loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Passive Probe supplied with Oscilloscope
Suitable for use on low-side device only
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
DL-HCM Series
Good performance, best value
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series (Si) or DL-ISO Series (SiC/GaN)
Cost is very high for capability provided
Probe noise will be higher than DL-HCM at this voltage range
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Series/Shunt Resistor
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Cannot measure voltage drop across resistor with ground-referenced probe.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
AP033 or DL-HCM Series
Probes with gain (AP033) may perform acceptably but may not meet common-mode needs. Otherwise, performance likely borderline ok.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series (Si) or DL-ISO Series (SiC/GaN)
Low signal amplitude may still result in marginal measurement.
Sensor Signal
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
DL-HCM Series
Low attenuation means low additive noise with very small signals.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series (Si) or DL-ISO Series (SiC/GaN)
Benefits of optical isolation less apparent and less required at lower bus voltages.
Discrete Components
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
DL-HCM Series
Best solution in all cases
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series (Si) or DL-ISO Series (SiC/GaN)
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Line Side (AC) Input
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope
Check ratings of probe for suitability. Line-neutral (ground-referenced) voltage probing only – cannot probe line-line.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC Bus/Link
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope
High attenuation, could be noisy
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
DL-HCM Series
Low attenuation means low additive noise with very small signals.
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Inverter/Drive PWM Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope
Check ratings of probe for suitability. Line-reference voltage probing only – cannot probe line-line. Board REF must be able to be connected to scope GND.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
DL-HCM Series
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC-DC Converter HV Input/Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope
Check ratings of probe for suitability. High attenuation, could be noisy. Board REF must be able to be connected to scope GND.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
DL-HCM Series
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Gate drive
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Passive Probe Supplied with Oscilloscope, PPE or HVP Series
Low-side gate drive signals only. Board REF = Scope GND. High attenuation = more noise.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD310x models)
Circuit loading may be an issue in some cases.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVFO Series
Lowest tip capacitance and loading, best CMRR.
Conduction loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Switching Loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
PPE or HVP Series
Suitable for use on low-side device only.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x models)
Good performance, best value.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
DL-ISO Series
Cost is very high for capability provided.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Series/Shunt Resistor
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Cannot measure voltage drop across resistor with ground-referenced probe.
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
HVD Series (HVD310x models)
Probe attenuation too high and signal amplitude likely too low for a good measurement.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series or DL-ISO Series
Low signal amplitude may still result in marginal measurement.
Sensor Signal
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD310x models)
High attenuation means high additive noise with very small signals.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVFO Series
Lower attenuation will generally result in lower additive noise.
Discrete Components
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x models)
Best solution in all cases
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Line Side (AC) Input
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. Line-neutral (ground-referenced) voltage probing only – cannot probe line-line.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x models)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC Bus/Link
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. High attenuation, could be noisy
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x models)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Inverter/Drive PWM Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. Line-reference voltage probing only – cannot probe line-line. Board REF must be able to be connected to scope GND.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x models)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC-DC Converter HV Input/Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. High attenuation, could be noisy. Board REF must be able to be connected to scope GND.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x models)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive HV Single-ended,
Ground-referenced
Active HV Differential,
High-attenuation isolated
Active
Single-ended,
Fiber-optic Isolated probe
Gate Drive
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Passive Probe Supplied with Oscilloscope, PPE or HVP Series
Low-side gate drive signals only. Board REF = Scope GND. High attenuation = more noise.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3220)
Circuit loading may be an issue in some cases. Bandwidth likely too low for GaN.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
DL-ISO Series
Lowest tip capacitance and loading, best CMRR.
Conduction Loss
Single-ended ground-referenced design will limit utility in this application.
Single-ended ground-referenced design will limit utility in this application.
Single-ended ground-referenced design will limit utility in this application.
Switching Loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
PPE or HVP Series
Suitable for use on low-side device only.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3220)
Circuit loading may be an issue in some cases. Bandwidth likely too low for GaN.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
DL-ISO Series
Best probe CMRR at high frequencies is beneficial for fast WBG slew rates
Application
Passive HV Single-ended,
Ground-referenced
Active HV Differential,
High-attenuation isolated
Active
Single-ended,
Fiber-optic Isolated probe
Series/Shunt Resistor
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Cannot measure voltage drop across resistor with ground-referenced probe.
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
HVD Series (HVD3220)
Probe attenuation too high and signal amplitude likely too low for a good measurement.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series or DL-ISO Series
Low signal amplitude may still result in marginal measurement.
Sensor Signal
Single-ended ground-referenced design will limit utility in this application.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3220)
High attenuation means high additive noise with very small signals.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVFO Series
Lower attenuation will generally result in lower additive noise.
Discrete Components
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3220)
Best solution in all cases
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series or DL-ISO Series
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Line Side (AC) Input
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. Line-neutral (ground-referenced) voltage probing only – cannot probe line-line.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x or HVD32xx)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC Bus/Link
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability
High attenuation, could be noisy
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x or HVD32xx)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Inverter/Drive PWM Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. Line-reference voltage probing only – cannot probe line-line. Board REF must be able to be connected to scope GND.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
DL-HCM Series
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC-DC Converter HV Input/Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. High attenuation, could be noisy. Board REF must be able to be connected to scope GND.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
HVD Series (HVD310x or HVD32xx)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Gate drive
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Passive Probe Supplied with Oscilloscope, PPE or HVP Series
Low-side gate drive signals only. Board REF = Scope GND. High attenuation = more noise.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD310x models)
Circuit loading may be an issue in some cases.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVFO Series
Lowest tip capacitance and loading, best CMRR.
Conduction loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Switching Loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
PPE or HVP Series
Suitable for use on low-side device only.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD310x models)
Good performance, best value.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
DL-ISO Series
Cost is very high for capability provided.
Application
Passive HV Single-ended,
Ground-referenced
Active HV Differential,
High-attenuation isolated
Active
Single-ended,
Fiber-optic Isolated probe
Series/Shunt Resistor
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Cannot measure voltage drop across resistor with ground-referenced probe.
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
HVD Series (HVD3206 or HVD3220)
Probe attenuation too high and signal amplitude likely too low for a good measurement.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series or DL-ISO Series
Low signal amplitude may still result in marginal measurement.
Sensor Signal
Single-ended ground-referenced design will limit utility in this application.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3220)
High attenuation means high additive noise with very small signals.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVFO Series
Lower attenuation will generally result in lower additive noise.
Discrete Components
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3220)
Best solution in all cases
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series or DL-ISO Series
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Line Side (AC) Input
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. Line-neutral (ground-referenced) voltage probing only – cannot probe line-line.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC Bus/Link
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability
High attenuation, could be noisy
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3206 or HVD3220)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Inverter/Drive PWM Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. Line-reference voltage probing only – cannot probe line-line. Board REF must be able to be connected to scope GND.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
HVD Series (HVD3206 or HVD3220)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC-DC Converter HV Input/Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. High attenuation, could be noisy. Board REF must be able to be connected to scope GND.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
HVD Series (HVD3206 or HVD3220)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active HV Differential,
High-attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Gate drive
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Passive Probe Supplied with Oscilloscope, PPE or HVP Series
Low-side gate drive signals only. Board REF = Scope GND. High attenuation = more noise.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3220)
Circuit loading may be an issue in some cases. Bandwidth likely too low for GaN.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
DL-ISO Series
Lowest tip capacitance and loading, best CMRR.
Conduction loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Switching Loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
PPE or HVP Series
Suitable for use on low-side device only.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3220)
Circuit loading may be an issue in some cases
Bandwidth likely too low for GaN
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
DL-ISO Series
Best probe CMRR at high frequencies is beneficial for fast WBG slew rates
Application
Passive HV Single-ended,
Ground-referenced
Active HV Differential,
High-attenuation isolated
Active
Single-ended,
Fiber-optic Isolated probe
Series/Shunt Resistor
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Cannot measure voltage drop across resistor with ground-referenced probe.
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
HVD Series (HVD3220)
Probe attenuation too high and signal amplitude likely too low for a good measurement.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series or DL-ISO Series
Low signal amplitude may still result in marginal measurement.
Sensor Signal
Single-ended ground-referenced design will limit utility in this application.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3220)
High attenuation means high additive noise with very small signals.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVFO Series
Lower attenuation will generally result in lower additive noise.
Discrete Components
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3220)
Best solution in all cases
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO Series or DL-ISO Series
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Line Side (AC) Input
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. Line-neutral (ground-referenced) voltage probing only – cannot probe line-line.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC Bus/Link
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. High attenuation, could be noisy
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3206 or HVD3220)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Inverter/Drive PWM Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. Line-reference voltage probing only – cannot probe line-line. Board REF must be able to be connected to scope GND.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3206 or HVD3220)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
DC-DC Converter HV Input/Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
Passive Probe Supplied with Oscilloscope, PPE Series, or HVP Series
Check ratings of probe for suitability. High attenuation, could be noisy. Board REF must be able to be connected to scope GND.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3206 or HVD3220)
Best solution in all cases
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Gate Drive
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Passive Probe Supplied with Oscilloscope, PPE or HVP Series
Low-side gate drive signals only. Board REF = Scope GND. High attenuation = more noise.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3605)
Circuit loading may be an issue in some cases. Attenuation will be high, resulting in more noise in the measurement. Bandwidth might be too low for SiC.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVFO or DL-ISO Series
Lowest tip capacitance and loading, best CMRR.
Conduction Loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Switching Loss
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
PPE or HVP Series
Check ratings of probe for suitability. Suitable for use on low-side device only.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3605)
Good performance, best value. Be sure Vpk-pk requirement doesn’t exceed rated range.
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Voltage range required generally exceeds probe capabilities.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
Differential,
Attenuation Isolated probe
Active
Single-ended,
Fiber-optic Isolated probe
Series/Shunt Resistor
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Cannot measure voltage drop across resistor with ground-referenced probe.
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
HVD Series (HVD3605)
Probe attenuation too high and signal amplitude likely too low for a good measurement.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO or DL-ISO Series
Low signal amplitude may still result in marginal measurement.
Sensor Signal
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application.
While the probe will provide a result and will not be damaged inmaking the measurement, most users would find the probe does not work well in this application.
HVD Series (HVD3605)
Very high attenuation means very high additive noise with very small signals.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVFO or DL-ISO Series
Lower probe attenuation will generally result in lower additive noise.
Discrete Components
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Single-ended ground-referenced design will limit utility in this application.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3605)
Best solution in all cases
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVFO or DL-ISO Series
Cost is very high for capability provided. Voltage range required may exceed probe capability.
Application
Passive
HV Single-ended,
Ground referenced probe
Active
HV Differential,
High-attenuation isolated
Active
Single-ended,
Fiber-optic Isolated probe
Line Side (AC) Input
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
PPE Series, or HVP Series
Check ratings of probe for suitability. Line-neutral (ground-referenced) voltage probing only – cannot probe line-line.
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
HVD Series (HVD3605)
Be sure that Vpk-pk requirement doesn’t exceed differential voltage range
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Voltage range required generally exceeds probe capabilities.
DC Bus/Link
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
PPE Series, or HVP Series
Check ratings of probe for suitability. High attenuation, could be noisy
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3605)
Best solution in all cases
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Voltage range required generally exceeds probe capabilities.
Inverter/Drive PWM Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
PPE Series, or HVP Series
Check ratings of probe for suitability. Line-reference voltage probing only – cannot probe line-line. Board REF must be able to be connected to scope GND.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3605)
Best solution in all cases
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Voltage range required generally exceeds probe capabilities.
DC-DC Converter HV Input/Output
There are some compromises in the performance of the probe in this application, though some users may find the probe works fine for them.
PPE Series, or HVP Series
Check ratings of probe for suitability. High attenuation, could be noisy. Board REF must be able to be connected to scope GND.
This is the perfect probe for the application. There are few issues with its use, and it has been optimized in price and performance for this application.
HVD Series (HVD3605)
Best solution in all cases
The probe should absolutely not be used in this application as damage to the probe, oscilloscope or device under test (DUT) may occur, or harm may come to the operator.
Voltage range required generally exceeds probe capabilities.
高压探头选择指南 - 在下面进行选择
应用
栅极驱动
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 随示波器提供的无源探头 仅低侧栅极驱动信号。 电路板 REF = ScopeGND。 高衰减=更多噪音。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-HCM系列 具有非常合理的 CMRR 和低尖端电容的可能的最佳整体性能 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列 (Si) 或 DL-ISO 系列 (SiC/GaN) 可能有更好的性能,但可能不值高价。 CMRR 优势在 48 Vdc 时没有帮助 传导损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 开关损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 随示波器提供的无源探头 仅适用于低侧设备 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-HCM系列 良好的性能,最佳价值 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列 (Si) 或 DL-ISO 系列 (SiC/GaN) 所提供能力的成本非常高在此电压范围内,探头噪声将高于 DL-HCM
应用
串联/分流电阻
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 无法使用接地参考探头测量电阻两端的压降。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 AP033 或 DL-HCM 系列 具有增益的探头 (AP033) 的性能可能可以接受,但可能无法满足共模需求。 否则,性能可能接近正常。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列 (Si) 或 DL-ISO 系列 (SiC/GaN) 低信号幅度仍可能导致边际测量。 传感器信号
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-HCM系列 低衰减意味着非常小的信号具有低附加噪声。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列 (Si) 或 DL-ISO 系列 (SiC/GaN) 在较低的总线电压下,光隔离的好处不太明显,也不太需要。 分立元件
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-HCM系列 所有情况下的最佳解决方案 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列 (Si) 或 DL-ISO 系列 (SiC/GaN) 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
线路侧 (AC) 输入
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器提供的无源探头 检查探头的额定值是否适用。 仅中性线(接地参考)电压探测 – 不能探测线路。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD310x) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 直流母线/链接
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器提供的无源探头 高衰减,可能会有噪音 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-HCM系列 低衰减意味着非常小的信号具有低附加噪声。 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 逆变器/驱动器 PWM 输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器提供的无源探头 检查探头的额定值是否适用。 仅线路参考电压探测——不能探测线路。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 DL-HCM系列 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 DC-DC转换器高压输入/输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器提供的无源探头 检查探头的额定值是否适用。 高衰减,可能会有噪音。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 DL-HCM系列 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
栅极驱动
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 随示波器、PPE 或 HVP 系列提供的无源探头 仅低侧栅极驱动信号。 电路板 REF = 范围 GND。 高衰减=更多噪音。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列(HVD310x 型号) 在某些情况下,电路负载可能是一个问题。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 高压振荡器系列 最低尖端电容和负载,最佳 CMRR。 传导损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 开关损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 PPE 或 HVP 系列 仅适用于低侧设备。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 型号) 良好的性能,最佳价值。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 DL-ISO系列 所提供功能的成本非常高。
应用
串联/分流电阻
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 无法使用接地参考探头测量电阻两端的压降。 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 HVD 系列(HVD310x 型号) 探头衰减太高,信号幅度可能太低,无法进行良好的测量。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列或 DL-ISO 系列 低信号幅度仍可能导致边际测量。 传感器信号
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列(HVD310x 型号) 高衰减意味着带有非常小信号的高加性噪声。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 高压振荡器系列 较低的衰减通常会导致较低的加性噪声。 分立元件
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 型号) 所有情况下的最佳解决方案 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 高压振荡器系列 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
线路侧 (AC) 输入
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 仅中性线(接地参考)电压探测 – 不能探测线路。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 型号) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 直流母线/链接
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 高衰减,可能会有噪音 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 型号) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 逆变器/驱动器 PWM 输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 仅线路参考电压探测——不能探测线路。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 型号) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 DC-DC转换器高压输入/输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 高衰减,可能会有噪音。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 型号) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
无源高压单端,
以地为参考
有源高压差速器,
高衰减隔离
栅极驱动
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 随示波器、PPE 或 HVP 系列提供的无源探头 仅低侧栅极驱动信号。 电路板 REF = 范围 GND。 高衰减=更多噪音。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3220) 在某些情况下,电路负载可能是一个问题。 带宽对于 GaN 来说可能太低了。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-ISO系列 最低尖端电容和负载,最佳 CMRR。 传导损耗
不使用 单端接地参考设计将限制此应用中的效用。 不使用 单端接地参考设计将限制此应用中的效用。 不使用 单端接地参考设计将限制此应用中的效用。 开关损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 PPE 或 HVP 系列 仅适用于低侧设备。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3220) 在某些情况下,电路负载可能是一个问题。 带宽对于 GaN 来说可能太低了。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-ISO系列 高频下的最佳探头 CMRR 有利于快速 WBG 转换速率
应用
无源高压单端,
以地为参考
有源高压差速器,
高衰减隔离
串联/分流电阻
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 无法使用接地参考探头测量电阻两端的压降。 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 HVD 系列 (HVD3220) 探头衰减太高,信号幅度可能太低,无法进行良好的测量。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列或 DL-ISO 系列 低信号幅度仍可能导致边际测量。 传感器信号
不使用 单端接地参考设计将限制此应用中的效用。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3220) 高衰减意味着带有非常小信号的高加性噪声。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 高压振荡器系列 较低的衰减通常会导致较低的加性噪声。 分立元件
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD3220) 所有情况下的最佳解决方案 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列或 DL-ISO 系列 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
线路侧 (AC) 输入
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 仅中性线(接地参考)电压探测 – 不能探测线路。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 或 HVD32xx) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 直流母线/链接
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用高衰减,可能会有噪音 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 或 HVD32xx) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 逆变器/驱动器 PWM 输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 仅线路参考电压探测——不能探测线路。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 DL-HCM系列 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 DC-DC转换器高压输入/输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 高衰减,可能会有噪音。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 HVD 系列(HVD310x 或 HVD32xx) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
栅极驱动
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 随示波器、PPE 或 HVP 系列提供的无源探头 仅低侧栅极驱动信号。 电路板 REF = 范围 GND。 高衰减=更多噪音。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列(HVD310x 型号) 在某些情况下,电路负载可能是一个问题。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 高压振荡器系列 最低尖端电容和负载,最佳 CMRR。 传导损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 开关损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 PPE 或 HVP 系列 仅适用于低侧设备。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD310x 型号) 良好的性能,最佳价值。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 DL-ISO系列 所提供功能的成本非常高。
应用
无源高压单端,
以地为参考
有源高压差速器,
高衰减隔离
串联/分流电阻
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 无法使用接地参考探头测量电阻两端的压降。 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 HVD 系列(HVD3206 或 HVD3220) 探头衰减太高,信号幅度可能太低,无法进行良好的测量。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列或 DL-ISO 系列 低信号幅度仍可能导致边际测量。 传感器信号
不使用 单端接地参考设计将限制此应用中的效用。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3220) 高衰减意味着带有非常小信号的高加性噪声。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 高压振荡器系列 较低的衰减通常会导致较低的加性噪声。 分立元件
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD3220) 所有情况下的最佳解决方案 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列或 DL-ISO 系列 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
线路侧 (AC) 输入
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 仅中性线(接地参考)电压探测 – 不能探测线路。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 高压系列 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 直流母线/链接
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用高衰减,可能会有噪音 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD3206 或 HVD3220) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 逆变器/驱动器 PWM 输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 仅线路参考电压探测——不能探测线路。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 HVD 系列(HVD3206 或 HVD3220) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 DC-DC转换器高压输入/输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 高衰减,可能会有噪音。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 HVD 系列(HVD3206 或 HVD3220) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 栅极驱动
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 随示波器、PPE 或 HVP 系列提供的无源探头 仅低侧栅极驱动信号。 电路板 REF = 范围 GND。 高衰减=更多噪音。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3220) 在某些情况下,电路负载可能是一个问题。 带宽对于 GaN 来说可能太低了。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-ISO系列 最低尖端电容和负载,最佳 CMRR。 传导损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 开关损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 PPE 或 HVP 系列 仅适用于低侧设备。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3220) 在某些情况下,电路负载可能是一个问题GaN 的带宽可能太低 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 DL-ISO系列 高频下的最佳探头 CMRR 有利于快速 WBG 转换速率
应用
无源高压单端,
以地为参考
有源高压差速器,
高衰减隔离
串联/分流电阻
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 无法使用接地参考探头测量电阻两端的压降。 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 HVD 系列 (HVD3220) 探头衰减太高,信号幅度可能太低,无法进行良好的测量。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列或 DL-ISO 系列 低信号幅度仍可能导致边际测量。 传感器信号
不使用 单端接地参考设计将限制此应用中的效用。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3220) 高衰减意味着带有非常小信号的高加性噪声。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 高压振荡器系列 较低的衰减通常会导致较低的加性噪声。 分立元件
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD3220) 所有情况下的最佳解决方案 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 系列或 DL-ISO 系列 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
线路侧 (AC) 输入
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 仅中性线(接地参考)电压探测 – 不能探测线路。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 高压系列 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 直流母线/链接
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 高衰减,可能会有噪音 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD3206 或 HVD3220) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 逆变器/驱动器 PWM 输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 仅线路参考电压探测——不能探测线路。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD3206 或 HVD3220) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。 DC-DC转换器高压输入/输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 随示波器、PPE 系列或 HVP 系列提供的无源探头 检查探头的额定值是否适用。 高衰减,可能会有噪音。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列(HVD3206 或 HVD3220) 所有情况下的最佳解决方案 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
栅极驱动
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 随示波器、PPE 或 HVP 系列提供的无源探头 仅低侧栅极驱动信号。 电路板 REF = 范围 GND。 高衰减=更多噪音。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3605) 在某些情况下,电路负载可能是一个问题。 衰减会很高,从而导致测量中出现更多噪声。 对于 SiC,带宽可能太低。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVFO 或 DL-ISO 系列 最低尖端电容和负载,最佳 CMRR。 传导损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 开关损耗
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 PPE 或 HVP 系列 检查探头的额定值是否适用。 仅适用于低侧设备。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD3605) 良好的性能,最佳价值。 确保 Vpk-pk 要求不超过额定范围。 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 所需的电压范围通常超过探头的能力。
应用
串联/分流电阻
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 无法使用接地参考探头测量电阻两端的压降。 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 HVD 系列 (HVD3605) 探头衰减太高,信号幅度可能太低,无法进行良好的测量。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 或 DL-ISO 系列 低信号幅度仍可能导致边际测量。 传感器信号
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用。 安全但不适合 虽然探头会提供结果并且在进行测量时不会损坏,但大多数用户会发现探头在这种应用中不能很好地工作。 HVD 系列 (HVD3605) 非常高的衰减意味着非常高的加性噪声和非常小的信号。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVFO 或 DL-ISO 系列 较低的探头衰减通常会导致较低的加性噪声。 分立元件
不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 单端接地参考设计将限制此应用中的效用。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD3605) 所有情况下的最佳解决方案 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVFO 或 DL-ISO 系列 所提供功能的成本非常高。 所需的电压范围可能超过探头能力。
应用
线路侧 (AC) 输入
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 PPE 系列或 HVP 系列 检查探头的额定值是否适用。 仅中性线(接地参考)电压探测 – 不能探测线路。 警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 HVD 系列 (HVD3605) 确保 Vpk-pk 要求不超过差分电压范围 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 所需的电压范围通常超过探头的能力。 直流母线/链接
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 PPE 系列或 HVP 系列 检查探头的额定值是否适用。 高衰减,可能会有噪音 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD3605) 所有情况下的最佳解决方案 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 所需的电压范围通常超过探头的能力。 逆变器/驱动器 PWM 输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 PPE 系列或 HVP 系列 检查探头的额定值是否适用。 仅线路参考电压探测——不能探测线路。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD3605) 所有情况下的最佳解决方案 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 所需的电压范围通常超过探头的能力。 DC-DC转换器高压输入/输出
警告 在此应用程序中,探针的性能存在一些折衷,但一些用户可能会发现该探针对他们来说工作正常。 PPE 系列或 HVP 系列 检查探头的额定值是否适用。 高衰减,可能会有噪音。 电路板 REF 必须能够连接到示波器 GND。 最佳选择 这是适合该应用的完美探头。 它的使用几乎没有问题,并且针对此应用程序在价格和性能方面进行了优化。 HVD 系列 (HVD3605) 所有情况下的最佳解决方案 不使用 绝对不应在此应用中使用探头,因为可能会损坏探头、示波器或被测设备 (DUT),或者可能对操作员造成伤害。 所需的电压范围通常超过探头的能力。 Explore
Superior Performance
-
1 kV, 2 kV, 6 kV CAT safety rated models
- Widest differential voltage ranges available – up to 7.6 kV
- ProBus interface and wide oscilloscope compatibility
Exceptional CMRR and Bandwidth
- 65 dB CMRR at 1 MHz - 50x better than competitive probes
- Up to 400 MHz bandwidth
- Best signal fidelity - lowest noise and overshoot
Highest Precision
- Best gain accuracy – 1%
- Autozero with auto disconnect switch
- High offset capability at both high and low attenuation
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高压差分探头 – HVD 系列
HVD3000A 系列高压差分探头在宽频率范围内提供高 CMRR,以简化在嘈杂、高共模电力电子环境中发现的测量挑战。 该探头的设计易于使用,可实现安全、精确的高压浮地测量。
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出众的性能
- 1 kV、2 kV、6 kV CAT 安全额定型号
- 可用的最宽差分电压范围 – 高达 7.6 kV
- ProBus 接口和广泛的示波器兼容性
出色的共模抑制比和带宽
- 1 MHz 时实现 65 dB 的共模抑制比 - 比竞争对手的探头好 50 倍
- 高达 400 MHz 的带宽
- 最佳的信号保真度 - 最低的噪声和过冲
更高的精度
- 最佳增益精度 – 1%
- 带自动断路开关的自动归零
- 在高衰减比和低衰减比下都具备的高偏置能力
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Highest accuracy
- 1.5% system accuracy
- Precision Gain Calibration
- High 160 dB CMRR
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高压光隔离示波器探头 – DL-ISO 系列
更高的精度
- 1.5% 系统精度
- 精确的增益校准
- 160 dB 高共模抑制比
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更好的信号保真度
- 信号的最真实呈现
- 低探头负载和最小的过冲
- 435 ps 上升时间
View DL-ISO Probe Tips – Most Flexible Video
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全面的连接
View DL-ISO Probe Tips – Most Flexible Video
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- MMCX 提供高带宽便利性
- 用于 2.5 kV 性能的方形接头
- 与泰克 IsoVu 相比更加灵活的前端
查看 DL-ISO 探头前端视频 – 最灵活的方式
|
|
DL-ISO |
HVFO
|
| 带宽
|
1 GHz
|
150 MHz
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| 输入电压范围
|
2 - 2500 V
|
2- 40伏
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| 应用
|
GaN/SiC
|
Si |
| 共模范围
|
60千伏
|
35千伏
|
| 直流精度
|
1.5%
|
2.5%
|
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Optical Isolation for Silicon MOSFETs
- 150 MHz bandwidth
- 35 kV common-mode voltage rating
- Optical isolation for reduced loading of DUT
Superior Noise Rejection
- 140 dB CMRR
- Low loop inductance
- Low attenuation
Simple, Compact, Affordable
- Fits into tight spaces
- Fits into tight budgets
- No compromise on performance
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高压光隔离示波器探头 – HVFO 系列
为硅 MOSFET 提供光隔离
- 150 MHz 带宽
- 35 kV 共模电压
- 用于减少 DUT 负载的光隔离技术
卓越的噪声抑制
简单、紧凑、实惠
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A current probe for every need
- 30 to 500 A continuous current
- Up to 100 MHz bandwidth
- Powered from the oscilloscope, no external power supply required
Best performance
- High sensitivity of 1 mA/div for low-current measurements
- No breaking of circuit or insertion of shunt to make measurement
- Autozero and degauss capabilities built into oscilloscope
Using a current sensor?
- CA10 enables 3rd party probe to operate like Teledyne LeCroy probe
- Programmable EEPROM saves 3rd party current sensor parameters
- Easy to use, saves time and possible errors
Learn more
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电流探头
Teledyne LeCroy 电流探头不需要断开电路或插入分流器即可进行准确可靠的电流测量。 基于霍尔效应和变压器技术的组合,Teledyne LeCroy 电流探头非常适合进行精确的交流、直流和脉冲电流测量。
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满足各种需求的电流探头
- 30 至 500 A 连续电流
- 高达 100 MHz 的带宽
- 由示波器供电,无需外部电源
更好的性能
- 1 mA/div 的高灵敏度,适用于小电流测量
- 无需断开电路或插入分流器即可进行测量
- 示波器内置自动归零和消磁功能
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使用电流传感器?
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- CA10 使第三方探头能够像 Teledyne LeCroy 探头一样运行
- 可编程 EEPROM 可保存第三方电流传感器参数
- 易于使用,节省时间和可能的错误
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