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TPP0101Passive 10X Voltage Probe
Tektronix TPP0101 Passive Voltage probes.The TPP0100 and TPP0101 probes are for use on BNC oscilloscopes with 1 MΩ/13 pF (TPP0100) and 1 MΩ/20 pF (TPP0101) inputs.
Tektronix TPP0101 Passive Voltage probes.The TPP0100 and TPP0101 probes are for use on BNC oscilloscopes with 1 MΩ/13 pF (TPP0100) and 1 MΩ/20 pF (TPP0101) inputs.
Tektronix TPP0100, TPP0101 Passive Voltage probes The TPP0100 and TPP0101 probes are for use on BNC oscilloscopes with 1 MΩ/13 pF (TPP0100) and 1 MΩ/20 pF (TPP0101) inputs
TCP0030A is a high-performance, easy-to-use AC/DC current probe. This AC/DC current measurement probe provides greater than 120 MHz of bandwidth with selectable 5 A and 30 A measurement ranges. It also provides exceptional low-current measurement capability and accuracy to current levels as low as 1 mA.
Tektronix TCP0020 AC/DC current probe. The TCP0020 is designed for direct connection to oscilloscopes with the TekVPI™ probe interface. The TCP2020 is designed for use with any instrument with BNC inputs and >100 kΩ input termination. These AC/DC current probes provide sufficient performance to support 50 MHz measurement system bandwidth. The TCP0020 provide a maximum 20 ARMS measurement range.
Tektronix TLP058 FlexChannel Logic Probe
TCPA300 amplifier for TCP312A, TCP305A, or TCP303
TekVPI® to TekProbe® BNC adapter.
Tektronix A622 100 Amp AC/DC Current Probe/BNC. The A622 can measure AC/DC currents from 50 mA to 100 A peak over a frequency range of DC to 100 kHz. It provides 10 mV or 100 mV output for each Amp measured.
Tektronix A621 2000 Amp AC Current Probe/BNC. The A621 can measure AC currents from 100 mA to 2000 A peak over a frequency range of 5 Hz to 50 kHz. It provides a 1 mV, 10 mV, or 100 mV output for each Amp measured.
AC/DC current probe DC - 15 MHz, 50 A
The TPP0850 offers the industry's highest bandwidth probe (800 MHz) for high-voltage signals (up to 2500 Vp-p). This is ideal for testing power semiconductors and switch-mode power supplies, which continue to increase in switching speed to minimize power loss, creating a need for faster rise time, higher bandwidth, and higher voltage probes.