Showing results: 1426 - 1440 of 1987 items found.
-
783407-02 -
NI
32-Bit, 8-Channel C Series Counter Input Module - The NI‑9361 is a differential or single-ended input module. With this module, you can expand beyond the four counters in CompactDAQ to reach up to 64 counters per 8‑slot chassis. You can configure each channel to read a single pulse train or combine them to read up to four incremental encoders. You can also directly connect sensors with open-collector or push-pull outputs by using an internal switchable 1 kΩ pull‑up resistor. The NI‑9361 counters can perform encoder position and velocity measurements. You can synchronize the counters with other analog, digital, and counter measurements in your chassis.
-
783407-01 -
NI
32-Bit, 8-Channel C Series Counter Input Module - The NI‑9361 is a differential or single-ended input module. With this module, you can expand beyond the four counters in CompactDAQ to reach up to 64 counters per 8‑slot chassis. You can configure each channel to read a single pulse train or combine them to read up to four incremental encoders. You can also directly connect sensors with open-collector or push-pull outputs by using an internal switchable 1 kΩ pull‑up resistor. The NI‑9361 counters can perform encoder position and velocity measurements. You can synchronize the counters with other analog, digital, and counter measurements in your chassis.
-
780159-02 -
NI
300 Vrms, 50 kS/s/ch, 24-Bit, Simultaneous Input, 3-Channel C Series Voltage Input Module - The NI‑9225 performs differential analog input. The wide measurement range is well suited for high-voltage measurement applications such as power metering, power quality monitoring, motor test, battery stack testing, and fuel cell tests. You can perform transient and harmonic analysis with high-speed simultaneous sampling. In addition, you can prevent ground loops and add safety to a system with 600 Vrms channel‑to‑channel isolation between the three NI‑9225 channels.
-
778572-99 -
NI
26.5 GHz, 50 Ω, Dual SPDT PXI RF Relay Module - The PXI‑2599 is a general-purpose single‑pole double‑throw (SPDT) switch module for routing RF or microwave signals in automated test applications. You can use this module for basic signal routing or inserting and removing components in a signal path. The PXI‑2599 is also well-suited for passing high-order harmonics from PXI RF Signal Upconverter modules or routing multiple sources to PXI RF Signal Downconverter modules. You can use its onboard relay count tracking feature to predict relay lifetime and reduce unexpected system downtime.
-
778572-96 -
NI
26.5 GHz, 50 Ω, Dual 6x1 (SP6T) PXI RF Multiplexer Switch Module—The PXI‑2596 is an RF signal multiplexer switch with dual 6x1 multiplexer banks in the same module. It is ideal for passing high-order harmonics from PXI RF Signal Upconverter modules or routing multiple sources to PXI RF Signal Downconverter modules. You can use the PXI‑2596 onboard relay count tracking feature to predict relay lifetime and reduce unexpected system downtime.
-
778572-98 -
NI
26.5 GHz, 50 Ω, Dual-Transfer PXI Transfer Switch Module—The PXI‑2598 is a general-purpose switch module for routing RF or microwave signals in automated test applications. You can use this module for basic signal routing or inserting and removing components in a signal path. The PXI‑2598 is also well suited for passing high-order harmonics from PXI RF Signal Upconverter modules or routing multiple sources to PXI RF Signal Downconverter modules. You can use its onboard relay count tracking to predict relay lifetime and reduce unexpected system downtime.
-
778572-97 -
NI
26.5 GHz, 50 Ω, 6x1 (SP6T) Terminated PXI RF Multiplexer Switch Module—The PXI‑2597 is ideal for passing high-order harmonics from PXI RF Signal Upconverter modules or routing multiple sources to PXI RF Signal Downconverter modules. The internal termination of the PXI‑2597 helps prevent high-power reflections that arise from open channels on the module. You can use the PXI‑2597 onboard relay count tracking feature to predict relay lifetime and reduce unexpected system downtime.
-
784471-01 -
NI
28-Bit, 32-Channel, 2 MS/s, ±15 V Flexible Resolution PXI Analog Input Module—The PXIe-4309 samples up to 32 differential channels and multiplexes the analog input channels across eight simultaneously sampling ADCs. The module samples eight input channels up to 2 MS/s/ch (single channel per ADC), and 32 input channels up to 100 kS/s/ch (four channels per ADC). The module's flexible resolution ranges from 18 bits at 2 MS/s/ch to 28 bits at 2 S/s/ch. The module features on-board signal averaging and filtering, auto-zero measurement switching, and a chopping mode that uses a pair of channels to provide high levels of noise rejection and to enable accurate and repeatable nano-volt measurements.
-
199745-05 -
NI
26-Pin MDR/SDR Camera Cable - The PoCL Cable provides a Power over Camera Link (PoCL) cable assembly. This cable carries power as well as signal communication for PoCL applications between compatible cameras and frame grabbers. The PoCL Cable is available in 26-Pin Mini Delta Ribbon (MDR) male to 26-Pin MDR male, or 26-Pin MDR male to 26-Pin Shrunk Delta Ribbon (SDR) male variations.
-
199744-05 -
NI
26-Pin MDR/SDR Camera Cable - The PoCL Cable provides a Power over Camera Link (PoCL) cable assembly. This cable carries power as well as signal communication for PoCL applications between compatible cameras and frame grabbers. The PoCL Cable is available in 26-Pin Mini Delta Ribbon (MDR) male to 26-Pin MDR male, or 26-Pin MDR male to 26-Pin Shrunk Delta Ribbon (SDR) male variations.
-
199744-02 -
NI
26-Pin MDR/SDR Camera Cable - The PoCL Cable provides a Power over Camera Link (PoCL) cable assembly. This cable carries power as well as signal communication for PoCL applications between compatible cameras and frame grabbers. The PoCL Cable is available in 26-Pin Mini Delta Ribbon (MDR) male to 26-Pin MDR male, or 26-Pin MDR male to 26-Pin Shrunk Delta Ribbon (SDR) male variations.
-
779687-01 -
NI
204.8 kS/s, 2-Input/2-Output PXI Sound and Vibration Module—The PXI‑4461 is designed for sound and vibration applications. It provides two-channel dynamic signal generation and two-channel acquisition, and you can use one of six gain settings to configure your input range. The PXI‑4461 also includes software-configurable AC/DC coupling and IEPE conditioning. The PXI‑4461 includes the hardware and software needed to make precision measurements with microphones, accelerometers, and other transducers that have very large dynamic ranges. Common applications include audio test; automotive noise, vibration, and harshness (NVH); and machine condition monitoring.
-
784197-01 -
NI
PXIe, 42 V, 2-Channel PXI Counter/Timer Module—The Astronics PXIe‑2461 is a high-performance counter/timer module that provides easy-to-use automatic measurement functions, including phase, pulse, peak, rise/fall time, time interval and ratio measurement, all with high resolution. It features nine digits per second resolution, programmable measurement timeout, and nine different arming modes. You can set the Astronics PXIe-2461 to measure timing and amplitude characteristics in one of two voltage ranges: ±5.1 V or ±42 V.
-
783087-02 -
NI
204.8 kS/s, 119 dB, 6 Gains, AC/DC-Coupled, 4-Input PXI Sound and Vibration Module—The PXI‑4464 delivers simultaneous sampling on all channels. In addition, the PXI‑4464 includes built-in antialiasing filters that automatically adjust to your sampling rate, six software-selectable input gains ranges, and TEDS smart sensor support for error-free setup. The IEPE excitation circuit can deliver current for high-power sensors and strong data integrity over long sensor cable runs.
-
783087-01 -
NI
204.8 kS/s, 119 dB, 6 Gains, AC/DC-Coupled, 4-Input PXI Sound and Vibration Module—The PXI‑4464 delivers simultaneous sampling on all channels. In addition, the PXI‑4464 includes built-in antialiasing filters that automatically adjust to your sampling rate, six software-selectable input gains ranges, and TEDS smart sensor support for error-free setup. The IEPE excitation circuit can deliver current for high-power sensors and strong data integrity over long sensor cable runs.