Tektronix TDS1000-2000 LCD Display Screen
Probe / Oscilloscope Compatibility
- Some probes require an external power supply (1103) when used with the TDS3000 series
- When using with MSO / DPO2000 series, a dedicated AC adapter (119-8726-00) and a power cable (161-0342-00) are required.
- When using with MSO / DPO3000 series, depending on the probe you may need a separate AC adapter (119-8726-00) and a power cable (161-0342-00).
- When using with MSO / DPO5000 series, separate AC adapter (119-8726-00) and power cable (161-0342-00) may be required depending on the probe model and number.
- When using with TBS2000 and MDO3000 series, the total power draw capacity can not exceed the maximum power supply capacity of the oscilloscope, see here for more information.
- Readout does not function in the TBS2000 series.
Passive Probes
Passive voltage probes ship standard with most oscilloscopes and provide a low cost, general purpose probing solution. Generally, these probes lack the performance of an active voltage probe but provide the ruggedness and wide dynamic range suitable for visualizing signals over a broad range of applications. Tektronix has released a new class of passive probes that redefine performance in the passive probe product category.
Tektronix new class of passive probe solutions offer:
- Best-in-class bandwidth up to 1 GHz
- Best-in-class input capacitance as low as 3.9 pF which minimizes probe loading effects
- Best-in-class input capacitance which minimizes performance loss when long ground leads are attached
- Automated probe compensation eliminating the need for the compensation screwdriver
| Model | Bandwidth | Attenuation | Input Impedance | Maximum Voltage | Interface | Compensation Range |
| TPP1000 | 1000 MHz | 10X | 10 MΩ || 3.9 pF | 300 Vrms (CAT II) | TekVPI w/Key | |
| TPP0500B | 500 MHz | 10X | 10 MΩ || 3.9 pF | 300 Vrms (CAT II) | TekVPI w/Key | — |
| TPP0502 | 500 MHz | 2X | 2 MΩ || 12.7 pF | 300 Vrms (CAT II) | TekVPI w/Key | — |
| TPP0250 | 250 MHz | 10X | 10 MΩ || 4 pF | 300 Vrms (CAT II) | TekVPI w/Key | — |
| TPP0051 | 50 MHz | 10X | 10 MΩ || 12 pF | 300 Vrms (CAT II) | BNC | 15–25 pF |
| TPP0100 | 100 MHz | 10X | 10 MΩ || 12 pF | 300 Vrms (CAT II) | BNC | 8–18 pF |
| TPP0101 | 100 MHz | 10X | 10 MΩ || 12 pF | 300 Vrms (CAT II) | BNC | 15–25 pF |
| TPP0200 | 200 MHz | 10X | 10 MΩ || 12 pF | 300 Vrms (CAT II) | BNC | 8–18 pF |
| TPP0201 | 200 MHz | 10X | 10 MΩ || 12 pF | 300 Vrms (CAT II) | BNC | 15–25 pF |
| P2220 | 6 MHz,
200 MHz |
1X, 10X | 1 MΩ || 110 pF,
10 MΩ || 17 pF |
150 Vrms (CAT II),
300 Vrms (CAT II) |
BNC | 15–25 pF |
| P2221 | 6 MHz,
200 MHz |
1X, 10X | 1 MΩ || 110 pF,
10 MΩ || 17 pF |
150 Vrms (CAT II),
300 Vrms (CAT II) |
BNC | 10–25 pF |
| P5050B | 500 MHz | 10X | 10 MΩ || 11 pF | 300 Vrms (CAT II) | TekProbe LEVEL1 | 15–25 pF |
| P6139B | 500 MHz | 10X | 10 MΩ || 8 pF | 300 Vrms (CAT II) | TekProbe LEVEL1 | 8–18 pF |
| P6101B | 15 MHz | 1X | 1 MΩ || 100 pF | 300 Vrms (CAT II) | BNC | — |
| P3010 | 100 MHz | 10X | 10 MΩ || 12 pF | 300 Vrms (CAT II) | TekProbe LEVEL1 | 10–15 pF |
| THP0301 | 300 MHz | 10X | 10 MΩ || 11 pF | 300 Vrms (CAT II) | BNC |
Passive Probes – Accessories 
Active Probes – Low Voltage Single-ended
A low voltage single-ended probe is typically used for measuring high-speed, ground referenced signals up to 12 V. These low voltage probes are the best choice for making measurements on high impedance, high frequency circuit elements which require minimal probe loading. Users should select probes with a low input capacitance specification (–1 pF) to minimize the probe’s loading effect on the circuit. A probe with lower input capacitance will offer higher input impedance at higher frequencies.
Tektronix Low Voltage Single-ended Probe solutions offer:
| Model | Bandwidth | Attenuation | Input Impedance | Dynamic Range | Offset Range | Maximum Non-Destruct Voltage | Interface |
| TAP4000 | 4 GHz | 10X | 40 kΩ || ≤ 0.8 pF | ±4 V | ±10 V | ±30 V | TekVPI |
| TAP3500 | 3.5 GHz | 10X | 40 kΩ || ≤ 0.8 pF | ±4 V | ±10 V | ±30 V | TekVPI |
| TAP2500 | 2.5 GHz | 10X | 40 kΩ || ≤ 0.8 pF | ±4 V | ±10 V | ±30 V | TekVPI |
| TAP1500 | 1.5 GHz | 10X | 1 MΩ || ≤ 1 pF | ±8 V | ±10 V | ±25 V(DC + PkAC) | TekVPI |
| TAP1500L | 1.5 GHz | 10X | 1 MΩ || ≤ 1 pF | ±8 V | ±10 V | ±25 V(DC + PkAC) | TekVPI |
| P6243 | 1 GHz | 10X | 1 MΩ || ≤ 1 pF | ±8 V | N/A | ±15 V(DC + PkAC) | TekProbe LVL2 |
| P6245 | 1.5 GHz | 10X | 1 MΩ || ≤ 1 pF | ±8 V | ±10 V | ±15 V(DC + PkAC) | TekProbe LVL2 |
- Bandwidths up to 4 GHz
- Very high input impedance with low input capacitance (<1 pF)
- Most extensive set of probe accessories for optimum measurement performance
- The TAP1500L is equipped with a 7 m cable; Ideal for Flying Probe Testers
Power Rail Probes
The TPR1000 and TPR4000 probes provide a low noise, large offset range solution for measurement of ripple on DC power rails ranging from –60 to +60 VDC. Tektronix’s power rail probes offer industry leading low noise and high offset range required to measure AC ripple between 200 μV p-p and 800 mV p-p at up to 4 GHz.
| Model | Bandwidth | Attenuation | Input Impedance | Dynamic Range | Offset Range | Interface |
| TPR4000 | 4 GHz | 1.25X | 50 kΩ DC – 10 kHz,
50 Ω AC > 100 kHz |
±1 V | ±60 V | TekVPI |
| TPR1000 | 1 GHz | 1.25X | 50 kΩ DC – 10 kHz,
50 Ω AC > 100 kHz |
±1 V | ±60 V | TekVPI |
Key Specs:
- <300 μV p-p noise on 6 Series MSO (20 MHz BW Limit)
- <1 mV p-p noise on 6 Series MSO (Full Bandwidth)
- ±60 V offset range
- Offset setting error: ±2 mV max, ±0.4 μV typical
Power Rail Probes – Accessory Kits 
Differential Probes – Low Voltage
Differential signaling used in high speed serial standards requires very accurate characterization. The industry-leading bandwidth and signal fidelity found in a Tektronix low voltage differential probe ensures that you see every possible detail.
| Model | Bandwidth | Attenuation | Input
Impedance |
Differential Input Voltage | Operating Window | Offset Range | Interface |
| TDP4000 | ≥4 GHz | 5X | 100 kΩ||≤ 0.3 pF | ±2 V | ±15 V (DC + pk AC) | ±1 V | TekVPI |
| TDP3500 | ≥3.5 GHz | 5X | 100 kΩ||≤ 0.3 pF | ±2 V | ±15 V (DC + pk AC) | ±1 V | TekVPI |
| TDP1500 | ≥1.5 GHz | 1X, 10X | 200 kΩ||≤ 1 pF | 1X:±0.85
10X: ±8.5 V |
±25 V (DC + pk AC) | ±7.0 V | TekVPI |
|
TDP1000 |
1 GHz |
5X / 50X |
1 MΩ || ≤ 1 pF |
50X: ±42 V
5X: ±4.2 V |
±42 V (DC + pk AC)
30 Vrms |
±42 V |
TekVPI |
|
TDP0500 |
500 MHz |
5X / 50X |
1 MΩ || ≤ 1 pF |
50X: ±42 V
5X: ±4.2 V |
±42 V (DC + pk AC)
30 Vrms |
±42 V |
TekVPI |
| P6248 | >1.5 GHz | 1X, 10X | 200 kΩ ||<1 pF | 1X:±0.85
10X: ±8.5 V |
±7.0 V | depends on scope | TekProbeLVL2 |
| P6247 | >1 GHz | 1X, 10X | 200 kΩ ||<1 pF | 1X:±0.85
10X: ±8.5 V |
±7.0 V | depends on scope | TekProbeLVL2 |
| ADA400A | >1 MHz | .1X – 100X | 1 MΩ || ~ 55 pF | .1-80 V** | ±10 to
±40 V** |
±1 to ±40 V** | TekProbeLVL2 |
Differential Probes – Low Voltage – TDP0500, TDP1000 & TDP1500 Accessories 
Differential Probes – Low Voltage – TDP3500 & TDP4000 Accessories
TriMode™ Probes – Low Voltage Differential & Single-ended
TriMode™ architecture streamlines measurement acquisition by enabling you to make differential, single-ended, and common mode measurements with a single connection. 
| Model | Bandwidth | Attenuation | Input
Impedance |
Differential Input Voltage | Operating Window | Offset Range | Interface |
| P7633 | 33 GHz | .25X -20X | 50 Ω / 225 Ω | 2 V , 10 V | ±4 , ±5 | ±4 | TekConnect |
| P7625 | 25 GHz | .25X -20X | 50 Ω / 225 Ω | 2 V , 10 V | ±4 , ±5 | ±4 | TekConnect |
| P7720 | 20 GHz | See TekFlex Accessory Performance Table | TekConnect | ||||
| P7716 | 16 GHz | See TekFlex Accessory Performance Table | TekConnect | ||||
| P7713 | 13 GHz | See TekFlex Accessory Performance Table | TekConnect | ||||
| P7708 | 8 GHz | See TekFlex Accessory Performance Table | TekConnect | ||||
| P7520A | >20 GHz | 5X, 12X | 100 kΩ | 5X: ±0.625 V
12.5X: ±1.6 V |
+3.7 to
–2.0 V |
2.5 to –1.5 V | TekConnect |
| P7516 | 16 GHz | 5X, 12X | 100 kΩ | 5X: ±0.625 V
12.5X: ±1.6 V |
+4.0 to
–2.0 V |
2.5 to –1.5 V | TekConnect |
| P7513A | >13 GHz | 5X, 12X | 100 kΩ | 5X: ±0.625 V
12.5X: ±1.6 V |
+4.0 to
–2.0 V |
2.5 to –1.5 V | TekConnect |
| P7508 | 8 GHz | 5X, 12X | 100 kΩ | 5X: ±0.625 V
12.5X: ±1.6 V |
+4.0 to
–2.0 V |
2.5 to –1.5 V | TekConnect |
| P7506 | 6 GHz | 5X, 12X | 100 kΩ | 5X: ±0.625 V
12.5X: ±1.6 V |
+4.0 to
–2.0 V |
2.5 to –1.5 V | TekConnect |
| P7504 | 4 GHz | 5X, 12X | 100 kΩ | 5X: ±0.625 V
12.5X: ±1.6 V |
+4.0 to
–2.0 V |
2.5 to –1.5 V | TekConnect |
| TDP7708 | 8 GHz | See TekFlex Accessory Performance Table | Flex Channel | ||||
| TDP7706 | 6 GHz | See TekFlex Accessory Performance Table | Flex Channel | ||||
| TDP7704 | 4 GHz | See TekFlex Accessory Performance Table | Flex Channel | ||||
TekFlex Accessory Table
| TekFlex Accessory | Attenuation | Input
Impedance |
Differential Input Voltage | Operating Window | Offset Range |
| P77STFLXA P77STFLXB P77STCABL | 4X | 100kΩ || 0.4 pF | 5 V | ±5.25V | ±4V |
| P77BRWSR | 10X | 150 kΩ || 22 pF | 12 V | ±10 V | ±10 V |
| P77C292MM | Variable | 50 Ω (SMA) | 2 V | ±4 V | ±4 V |
TriMode Probes — Low Voltage Differential & Single-ended — P7500 Accessories
TriMode Probes — Low Voltage Differential & Single-ended — P7600 Accessories 
Unique probe filters
The P7600 Series probes contain probe specific S-parameter data. Attaching a P7600 probe to a MSO/DPO70000DX or DPO70000SX oscilloscope transfers this data to the instrument to create unique system DSP filters based on the specific S-parameter data of the oscilloscope and the probe. Creating unique filters based on the specific response of the system is critical as bandwidths increase. At bandwidths of 33 GHz, small variations in the signal path can lead to significant variation in frequency response. These variations are corrected using DSP filtering.
TriMode Probes — Low Voltage Differential & Single-ended — P7700 & TDP7700 TekFlex™ Accessories
Current Probes
Tektronix current probe solutions offer:
- The broadest range of AC/DC and AC-only current probes
- Measurement accuracy from μAs to 2000 A
- Best-in-class bandwidth up to 120 MHz
- Best-in-class current clamp sensitivity down to 1 mA
- The only products with 3rd Party Safety Certification (UL, CSA, ETL)
- The only products with bare wire voltage ratings
- Automatic readout and scaling when used with Tektronix oscilloscopes so you don’t have to convert volts to amps or manually set the scaling
DC/AC
| Model | Maximum Current | Minimum Current* | Bandwidth | Rise Time | Interface | |
| TCPA300 | Current Probe Amplifier | TekProbe LVL 2 | ||||
| TCP312A | 30 A DC; 21.2 ARMS; 50 A peak | 1 mA | DC – 100 MHz | ≤ 3.5 ns | Amplifier | |
| TCP305A | 50 A DC; 35.4 ARMS; 50A peak | 5 mA | DC – 50 MHz | ≤ 7 ns | Amplifier | |
| TCP303 | 150 A DC; 150 ARMS; 500A peak | 5 mA | DC – 15 MHz | ≤ 23 ns | Amplifier | |
| TCPA400 | Current Probe Amplifier | TekProbe LVL 2 | ||||
| TCP404XL | 500 A DC; 500 ARMS; 750 A peak | 1 A | DC – 2 MHz | ≤ 175 ns | Amplifier | |
| TCP0030A | 30 A DC; 30 ARMS; 50 A peak | 1 mA | DC – 120 MHz | ≤ 2.92 ns | TekVPI | |
| TCP0020 | 20 A DC; 20 ARMS; 100 A peak | 10 mA | DC – 50 MHz | ≤ 7 ns | TekVPI | |
| TCP2020 | 20 A DC; 20 ARMS; 100 A peak | 10 mA | DC – 50 MHz | ≤ 7 ns | BNC | |
| TCP0150 | 150 A DC; 150 ARMS; 500 A peak | 5 mA | DC – 20 MHz | ≤ 17.5 ns | TekVPI | |
| A622 | 100 A DC; 70.7 ARMS; 100 A peak | DC –100 kHz | ≤ 3.5 μs | BNC | ||
*Winding the conductor multiple times through the current probe jaws increases the sensitivity.
AC Only 
| Model | Maximum Current | Minimum Current | Sensitivity* | Bandwidth | Interface |
| P6021A | 10.6 ARMS; 250 A peak | 2 mA/mV,
10 mA/mV |
120 Hz – 60 MHz | TekProbe | |
| P6022 | 4 ARMS; 100 A peak | 1 mA/mV,
10 mA/mV |
935 Hz – 120 MHz | BNC | |
| TRCP3000 | 3000 A peak | 500 mA | 2 mV/A | 1 Hz – 16 MHz | BNC |
| TRCP0600 | 600 A peak | 500 mA | 10 mV/A | 12 Hz – 30 MHz | BNC |
| TRCP0300 | 300 A peak | 250 mA | 20 mV/A | 9 Hz – 30 MHz | BNC |
| CT1 | 450 mARMS; 12 A peak | 5 mV/mA | 25 kHz – 1 GHz | BNC | |
| CT2 | 2.5 ARMS; 36 A peak | 1 mV/mA | 1.2 kHz – 200 MHz | BNC | |
| CT6 | 120 mARMS; 6 A peak | 5 mV/mA | 250 kHz – 2 GHz | BNC | |
| A621 | 1000 ARMS; 2000 A peak | 100 mA | 1 mV/A | 5 kHz – 50 kHz | BNC |
*Winding the conductor multiple times through the current probe jaws increases the sensitivity.
High Voltage Probes – Single-ended
A high voltage single-ended probe is typically used for measuring ground referenced signals up to 40 kV. However, some single-ended probes are designed for instruments with isolated or floating inputs for measurements that are not ground referenced. Users should select probes with a low input capacitance specification (< 4 pF) to minimize the probe’s loading effect on the circuit because a probe with lower input capacitance will offer higher input impedance at higher frequencies.
|
Model |
Bandwidth |
Max Voltage |
Attenuation |
Input Impedance | Compensation Range |
Interface |
|
P5100A |
500 MHz |
1000 VRMS (CAT II)
2.5kV peak |
100X |
40 MΩ|| 2.5 pF |
7 pF –30 pF |
TekProbe LEVEL 1 |
|
P6015A |
75 MHz |
20 kVRMS
40 kV peak |
1000X |
100 MΩ|| ≤ 3 pF |
7 pF –49 pF |
TekProbe L1 or BNC |
| P5122 | 200 MHz | 1000 VRMS (CAT II) | 100X | 100 MΩ|| 4.6 pF | 10 pF –25 pF | BNC |
|
TPP0850 |
800 MHz |
1000 VRMS (CAT II) 2.5kV peak |
50X |
40 MΩ|| 1.8 pF |
Auto compensated by scope |
TekVPI |
Tektronix High Voltage Probe solutions offer:
- Best-in-class bandwidth up to 800 MHz
- Best-in-class probe loading with input capacitance as low as 1.8 pF
- The only products with 3rd Party Safety Certification (UL, CSA, ETL)
- Most extensive set of probe accessories
Differential Probes – High Voltage 
A high voltage differential probe is used for measuring the voltage difference between two test points where neither test point is at ground. High voltage differential probes from Tektronix can be used for signals up to 6000 V. These probes are the best choice for making non-ground referenced, floating or isolated measurements in large part due to their common mode rejection capability. These products are designed, manufactured, and serviced by Tektronix.
Tektronix High Voltage Differential Probe solutions offer:
- Best-in-class bandwidth and probe loading
- The only products with 3rd Party Safety Certification (UL, CSA, ETL)
- High and medium voltage products to support varying dynamic range and measurement resolution requirements
- Most extensive set of probe accessories
| Model | Bandwidth | Rise Time | Attenuation | Maximum Differential Voltage | Maximum Voltage to Earth Ground | Differential Input Capacitance | Single Ended Input Capacitance | Differential Input Resistance | Single Ended Input Resistance | Cable Length (Tpropagation) | Interface |
| P5200A | 50 MHz | 7.8 ns | 50:1 / 500:1 | ±1300 V | 1000 Vrms (CAT II) | 2 pF | 4 pF | 10 MΩ | 5 MΩ | 1.5 m
(21 ns) |
BNC (1 MΩ) |
| P5202A | 100 MHz | 3.8 ns | 20:1 / 200:1 | ±640 V | 300 Vrms (CAT II) | 2 pF | 4 pF | 5 MΩ | 2.5 MΩ | 1.5 m
(21 ns) |
TekProbe LVL 2 (1 MΩ) |
| P5205A | 100 MHz | 3.8 ns | 50:1 / 500:1 | ±1300 V | 1000 Vrms (CAT II) | 2 pF | 4 pF | 10 MΩ | 5 MΩ | 1.5 m
(21 ns) |
TekProbe LVL 2 (1 MΩ) |
| P5210A | 50 MHz | 7.8 ns | 100:1 / 1000:1 | ±5600 V | 2300 Vrms (CAT I) | 2.5 pF | 5 pF | 40 MΩ | 20 MΩ | 1.5 m
(21 ns) |
TekProbe LVL 2 (1MΩ) |
| TMDP0200 | 200 MHz | 1.8 ns | 25:1 / 250:1 | ±750 V | 550 Vrms (CAT I) | 2 pF | 4 pF | 5 MΩ | 2.5 MΩ | 1.5 m
(21 ns) |
VPI (1 MΩ) |
| THDP0200 | 200 MHz | 1.8 ns | 50:1 / 500:1 | ±1500 V | 1000 Vrms (CAT II) | 2 pF | 4 pF | 10 MΩ | 5 MΩ | 1.5 m
(21 ns) |
VPI (1MΩ) |
| THDP0100 | 100 MHz | 3.5 ns | 100:1 / 1000:1 | ±6000 V | 2300 Vrms (CAT I) | 2.5 pF | 5 pF | 40 MΩ | 20 MΩ | 1.5 m
(21 ns) |
VPI (1 MΩ) |
Differential Probes – High Voltage Accessories
IsoVu™ Isolated Voltage Probe
IsoVu™ probes are the right tool for today’s demanding power measurement challenges given their industry leading 1 GHz bandwidth, 160 dB or 100 Million to 1 common mode rejection, 60 kV common mode voltage, large ± 3300 V differential range and superior probe loading.
Optimize for Performance and Efficiency
The benefits of a power design can only be realized when the switching circuit, the gate drive circuit, and the layout are all properly designed and optimized. lsoVu can be used to:
• Characterize the gate drivers, Vgs, Vds, and Is
• Characterize the time alignment of high and low side events
• Optimize and tune the switching characteristics
| Model | Bandwidth | Rise Time | Cable Length | Maximum Differential Input Voltage | Maximum Offset range | Maximum Common Mode Voltage to Earth | Interface |
| TIVP02 | 200 MHz | 2 ns | 2 m | 3300 V** | ±2500 V** | 60 kV | VPI (4/5/6
Series) |
| TIVP02L | 200 MHz | 2 ns | 10 m | 3300 V** | ±2500 V** | 60 kV | VPI (4/5/6
Series) |
| TIVP05 | 500 MHz | 850 ps | 2 m | 3300 V** | ±2500 V** | 60 kV | VPI (4/5/6
Series) |
| TIVP05L | 500 MHz | 850 ps | 10 m | 3300 V** | ±2500 V** | 60 kV | VPI (4/5/6
Series) |
| TIVP1 | 1 GHz | 450 ps | 2 m | 3300 V** | ±2500 V** | 60 kV | VPI (4/5/6
Series) |
| TIVP1L | 1 GHz | 450 ps | 10 m | 3300 V** | ±2500 V** | 60 kV | VPI (4/5/6
Series) |
IsoVu™ Isolated Voltage Probe Accessories
| TIVM Tip
Model |
Attenuation | Differential Voltage | Offset Range | Input
Impedance |
Max Non-Destruct Voltage
Vpk (DC + peak AC) 1 |
CMRR | Standard Attachment | |||||
| DC – 1 MHz | 1 MHz | 100 MHz | 200 MHz | 500 MHz | 1 GHz | |||||||
| SMA Input (50 Ω Mode) | 1:1 | ±5 V | ±25 V | 50 Ω || N.A. | 5 V RMS | 160 dB | 145 dB | 100 dB | 100 dB | 100 dB | 90 dB | |
| SMA Input (1 MΩ Mode) | 1:1 | ±5 V | ±25 V | 1 MΩ || 11 pF | 100 Vpk | 160 dB | 145 dB | 100 dB | 100 dB | 100 dB | 90 dB | |
| TIVPMX10X | 10:1 | ±50 V | ±200 V | 10 MΩ || 2.8 pF | 250 Vpk | 160 dB | 115 dB | 92 dB | 90 dB | 85 dB | 80 dB | Sensor Tip |
| TIVPMX50X | 50:1 | ±250 V | ±250 V | 10 MΩ || < 5 pF | 300 Vpk | 160 dB | 104 dB | 85 dB | 80 dB | 73 dB | 70 dB | Sensor Tip |
| TIVPSQ100X | 100:1 | ±500 V | ±500 V | 10 MΩ || < 5 pF | 600 Vpk | 160 dB | 100 dB | 70 dB | 57 dB | 39 dB | 30 dB | 0.1” Square Pin |
| TIVPWS500X | 500:1 | ±2.5 kV | ±2.5 kV | 40 MΩ || < 4 pF | 3300 Vpk | 160 dB | 100 dB | 60 dB | 48 dB | 33 dB | 25 dB | 0.1” Wide Square Pin |
| TIVPMX1X | 1:1 | ±5 V | ±25 V | 50 Ω or
1 MΩ || 11 pF |
5 V RMS (50 Ω)
100 Vpk(1 MΩ) |
160 dB | 145 dB | 100 dB | 100 dB | 100 dB | 90 dB | Sensor Tip |
IsoVu™ Isolated Current Probes
Make more accurate dynamic shunt-based current measurements with TICP Series Current Probes. High bandwidth, flexible ranges, complete galvanic isolation and extremely low noise enable you to go beyond traditional limits – ideal for low noise measurements on current shunts in floating sections of power circuits.
- Measurements from DC to hundreds of MHz when paired with high-performance shunts or CVRs.
- Complete RF isolation between the probe tip and the scope eliminates ground loops and dramatically reduces common mode noise.
- Low attenuation, 50 ohm input impedance, and shielded tips ensure a low noise contribution.
| Model | Bandwidth | Differential Voltage | Common Mode Voltage | Common Mode Rejection Ratio |
| TICP025 | 250 MHz | ±0.5V (1X Tip)
±5V (10X Tip) ±50V (100X Tip) |
1800 V Pollution Degree 1 1000 V CAT II | 140 dB at DC
up to 90 dB at 1 MHz |
| TICP050 | 500 MHz | ±0.5V (1X Tip)
±5V (10X Tip) ±50V (100X Tip) |
1800 V Pollution Degree 1 1000 V CAT II | 140 dB at DC
up to 90 dB at 1 MHz |
| TICP100 | 1 GHz | ±0.5V (1X Tip)
±5V (10X Tip) ±50V (100X Tip) |
1800 V Pollution Degree 1 1000 V CAT II | 140 dB at DC
up to 90 dB at 1 MHz |
IsoVu™ Isolated Current Probes Accessories 
Optical Probes
High Bandwidth
| Model | Electrical | Bandwidth (-3 dB) | Wavelength Range
Opt. FC/PC |
Input Fiber | Oscilloscope Interface | Rise Time (10% to 90%) | Optical Noise | Maximum Input Power (Linear Response) |
| DPO7OE1 | 33 GHz | 750 nm to 1650 nm Calibrated at 850 nm, 1310 nm, 1550 nm | FC/PC: 50 μm SMF and MMF compatible | FC/APC: 9 μm SMF compatible | ATI (1.85 mm RF
connector) and TekConnect |
10.2 ps, typical | 6.6 μW rms (TekConnect / ATI) | 4 mW, typical |
| DPO7OE2 | 59 GHz | 1200 nm to 1650 nm Calibrated at 1310 nm, 1550 nm | FC/PC: 9 μm SMF compatible | FC/APC: 9 μm SMF compatible | ATI (1.85 mm RF
connector) and TekConnect |
7.5 ps, typical | 10 μW rm (ATI) | 2 mW, typical |
The DPO7OE Series Optical Probes paired with a DPO70000 real time oscilloscope delivers high performance and advanced debug capabilities that are necessary for designers to fully troubleshoot 400G PAM4 signals (up to 56 GBd) and reduce time to market needs. These probes can also be used as a conventional O/E with a flat frequency response for general signal acquisition up to their respective bandwidth: 33 GHz using the DPO7OE1 or 59 GHz using the DPO7OE2.
- Versatile and modular design for use with multiple high-performance real time oscilloscope models
- Broad wavelength range with FC/PC and FC/APC connector options
- Deep optical PAM4 and PAM2 (NRZ) signal analysis and error detection
- User selectable Optical Reference Receivers (ORR)
Find more valuable resources at TEK.COM
Copyright © Tektronix. All rights reserved. Tektronix products are covered by U.S. and foreign patents, issued and pending. Information in this publication supersedes that in all previously published material. Specification and price change privileges reserved. TEKTRONIX and TEK are registered trademarks of Tektronix, Inc. All other trade names referenced are the service marks, trademarks or registered trademarks of their respective companies.
2/25 SBG 61W-14232-14
FAQ
- Q: What is the maximum voltage rating for the passive probes?
A: The maximum voltage for most passive probes is 300 Vrms (CAT II). - Q: How do I choose the right model for my application?
A: Consider factors such as bandwidth, attenuation, input impedance, and maximum voltage when selecting a probe model.
Documents / Resources
 |
Tektronix TDS1000-2000 LCD Display Screen [pdf] User Guide 2 Series MSO TDS1000-2000, 3 Series MDO, 4 Series MSO, TDS1000-2000 LCD Display Screen, TDS1000-2000, LCD Display Screen, Display Screen |