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Active Differential Probes
InfiniiMax probes provide a versatile probing solution for both single-ended active and differential probing. InfiniiMax probes consist of the probe amplifiers listed below and a large assortment of probing heads that attach to the probe amplifiers. All InfiniiMax probes connect to the oscilloscope using an AutoProbe interface.
| Model | Type | Interface | Bandwidth | Attenuation | Input Z differential | Dynamic Range |
|---|---|---|---|---|---|---|
| 1168/9B | Active Differential InfiniiMax II |
AutoProbe 1 | 10 GHz (1168B) 12 GHz (1169B) |
3.45:1 | 50 kΩ | ±1.65V |
| 1130/1/2/4B | Active Differential InfiniiMax I |
AutoProbe 1 | 1.5 GHz (1130B) 3.5 GHz (1131B) 5 GHz (1132B) 7 GHz (1134B) |
10:1 | 50 kΩ | ±2.5V |
High-Voltage Differential Probes
Both passive and active high-voltage probes are available. To ensure safe operation, read the user's guide before using the probe. High voltage differential probes allow for safe and accurate floating signal measurements between two voltage points where neither point is referenced to ground. Enabled by high CMRR, a high voltage differential probe simplifies the measurement challenges found in noisy, high common-mode power electronics environments.
| Model | Type | Interface | Bandwidth | Attenuation | Input Z differential | Dynamic Range |
|---|---|---|---|---|---|---|
| 1141A | High Voltage | BNC | 200 MHz | 1:1 | 1 MΩ, 7 pF | 200V (DC+peak AC) |
| 1153A | High Voltage | AutoProbe 1 | 200 MHz | 1:1 | 1 MΩ, 7 pF | 200V (DC+peak AC) |
| N2792A | High Voltage | BNC | 200 MHz | 10:1 | 1 MΩ, 3.5 pF | ±20V (differential) ±60V (common mode) |
| N2793A | High Voltage | BNC | 800 MHz | 10:1 | 200 kΩ, 1 pF | ±15V (differential) ±40V (common mode) |
Single-Ended Active Probes
Single-ended active probes contain a small, active amplifier built into the probe body near the probe tip. This arrangement makes it possible to keep the probe input capacitance very low, usually less than 2 pF. This low capacitance results in high input impedance on high frequencies. It has the best overall combination of resistive and capacitive loading. With such low loading, active probes can be used on high-impedance circuits that would be seriously loaded by passive probes. Active probes are the least intrusive of all the probes.
| Model | Type | Interface | Bandwidth | Attenuation | Input Z | Dynamic Range |
|---|---|---|---|---|---|---|
| 1144A
Discontinued |
Single-Ended Active | BNC | 800 MHz | 10:1 | 1 MΩ, 2 pF | ±7V |
| 1145A
Discontinued |
Single-Ended Active | BNC | 750 MHz | 10:1 | 1 MΩ, 2 pF | ±6V |
| 1155A
Discontinued |
Single-Ended Active | AutoProbe 1 | 750 MHz | 10:1 | 1 MΩ, 2 pF | NA |
Passive Probes
The most widely used type of oscilloscope probe is the passive probe. Passive probes are also the most rugged and economical. There are no active components such as transistors or amplifiers in the probe, and therefore passive probes do not need to be powered.
The N2870/1/2/3A and N2875A require the E2697A high impedance adapter.
| Model | Type | Interface | Bandwidth | Attenuation | Input Z | Dynamic Range |
|---|---|---|---|---|---|---|
| 1165A | Passive | BNC | 600 Mhz | 10:1 | 1 MΩ, 14 pF | 300 Vpk |
| N2771A
Discontinued |
Passive High Voltage |
BNC | 50 MHz | 1000:1 | 1 MΩ, 20 pF |
30 kVpk |
| N2870A | Passive | BNC | 35 MHz | 1:1 | 1 MΩ, 39 pF | 55V CAT II |
| N2871A | Passive | BNC | 200 MHz | 10:1 | 10 MΩ, 9.5 pF | 400V CAT I 300V CAT II |
| N2872A | Passive | BNC | 350 MHz | 10:1 | 10 MΩ, 9.5 pF | 400V CAT I 300V CAT II |
| N2873A | Passive | BNC | 500 MHz | 10:1 | 10 MΩ, 9.5 pF | 400V CAT I 300V CAT II |
| N2874A | Passive Resistive Divider |
BNC | 1.5 GHz | 10:1 | 500Ω, 2 pF | 8.5 CAT I |
| N2875A | Passive | BNC | 500 MHz | 20:1 | 20 MΩ, 5.6 pF | 400V CAT I 300V CAT II |
| N2876A | Passive Resistive Divider |
BNC | 1.5 GHz | 100:1 | 5 kΩ, 2.6 pF | 21 V CAT I |
| 54006A | Passive Resistive Divider |
SMA | 6 GHz | 10:1 or 20:1 | 500Ω | 20 Vpk |
Current Probes
Current probes sense the current flowing through a conductor and convert it to a voltage that can be viewed and measured on an oscilloscope. Keysight current probes use a hybrid technology that includes a Hall-effect sensor, which senses the DC current, and a current transformer, which senses the AC current. Using split core construction, the current probe easily clips on and off of a conductor, making it unnecessary to make an electrical connection to the circuit. Measurement bandwidths from DC to 100 MHz are available.
Use the E2697A high-impedance adapter to connect the following probes to the 80000-series oscilloscope.
| Model | Type | Interface | Bandwidth | Attenuation | Dynamic Range |
|---|---|---|---|---|---|
| 1146A | Current | BNC | 100 kHz | 0.1V/A or 0.01V/A |
max of: peak: 100A or continuous: 15Arms |
| 1146B | Current | BNC | 100 kHz | 0.1V/A or 0.01V/A |
maximum 100A dc or peak ac |
| N2780B | Current | BNC | 2 MHz | 0.01V/A | max of: peak: 700A or continuous: 500Arms |
| N2781B | Current | BNC | 10 MHz | 0.01V/A | max of: peak: 300A or continuous: 150Arms |
| N2782B | Current | BNC | 50 MHz | 0.1V/A | max of: peak: 50A or continuous: 30Arms |
| N2783B | Current | BNC | 100 MHz | 0.1V/A | max of: peak: 50A or continuous: 30Arms |