Showing results: 76 - 90 of 775 items found.
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Model 5791 -
Pentek, Inc.
- Simultaneous synthesis of up to five different clocks- Eight SMC clock outputs- Typical phase noise: -105 dBc/Hz @ 1 kHz offset- All clocks are phase-locked to input reference signal- Input reference frequency of 5 to 100 MHz- Four programmable VCXOs with 32-bit tuning resolution- Output clocks of 1, 2, 4, 8, or 16 submultiples of VCXO base frequencies- Output clock frequencies between 50 and 700 MHz- Control and status over the VPX backplane
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Model 5891 -
Pentek, Inc.
- Simultaneous synthesis of up to 10 different clocks- 16 SMC clock outputs- Typical phase noise: -105 dBc/Hz @ 1 kHz offset- All clocks are phase-locked to input reference signal- Input reference frequency of 5 to 100 MHz- Eight programmable VCXOs with 32-bit tuning resolution- Output clocks of 1, 2, 4, 8, or 16 submultiples of VCXO base frequencies- Output clock frequencies between 50 and 700 MHz- Control and status over the VPX backplane
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E5001A -
Keysight Technologies
To meet the demanding needs of today's advanced digital communication systems, Keysight offers Precision Clock Jitter Analysis software (E5001A SSA-J) for more precise and accurate characterization and evaluation of clock-signal jitter.
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Meinberg Funkuhren GmbH & Co. KG
Although the PCI Express is PCI-compliant, PCIe cards are based on a different concept. Less lines are used to transfer the data, for example in the case of PCI plug-in cards.
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Meinberg Funkuhren GmbH & Co. KG
Although the PCI Express bus is software-compatible with other PCI implementations, the hardware of these PCIe plug-in cards is based on a different concept.Fewer lines are used for data transmission than, for example, with PCI plug-in cards - a high transmission rate is achieved by using a fast serial protocol.
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Verix CDC -
Real Intent, Inc.
Verix product family initially offers Verix CDC, which provides one-step analysis and debug of all operating modes in an IC, and boosts productivity for SoC and FPGA design teams. Verix CDC, with its proprietary static intent verification technology, is the most precise and lowest-noise solution in the industry for multimode CDC analysis.
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M4I.7725-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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M4I.7735-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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M4I.7720-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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M4I.7730-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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M4I.7710-X8 -
Spectrum Instrumentation
The M4i.77xx-x8 series digital waveform acquisition (logic-analyzer) cards include versions with 32 synchronous channels, either single-ended with programmable threshold levels or differential. The large onboard memory can be segmented to record different waveform sequences. While the M4i.77xx cards have been designed using the latest technology they are still software compatible with the drivers from earlier Spectrum digital acquisition cards. Therefore existing customers can use the same software they developed for a 10 year old 60 MS/s digital input card also for an M4i.77xx series 720 MS/s logic analyzer.
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FMC406 -
Sundance Multiprocessor Technology Ltd.
The FMC406 is a low-noise clock generation and distribution module with eight clock outputs and eight trigger outputs that are fully synchronized. This module can either distribute an externally supplied clock or a locally generated clock. In the standard configuration, the FMC406 can generate any clock frequency between 34.375 MHz and 250MHz and lock it to an internal or external reference. The maximum clock frequency can be extended to 350MHz as a build option.
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Silicon Labs
Silicon Labs' clock buffers provide ultra-low additive jitter, low skew clock distribution. In addition to differential and LVCMOS buffers, Silicon Labs offers universal clock buffers that support any-in/out signal format and integrate clock muxing and division to further simplify clock tree design.
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SKU-051-01 -
Amfeltec Corp.
The PCI System Timer uses a hardware clock to synchronize IP signals. This hardware-based solution provides accurate clock timing for Asterisk® open-source PBX software.The timer supports variable clock timing intervals. You can configure the clock interval during startup. Currently, the PCI System Timer supports clock interval ranging from 1ms to 64ms.
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SKU-048-01 -
Amfeltec Corp.
The x1 PCI Express System Timer uses a hardware clock to synchronize IP signals. This hardware-based solution provides accurate clock timing for Asterisk® open-source PBX software.The Timer supports variable clock timing intervals. You can configure the clock interval during startup. Currently, the x1 PCI Express System Timer supports clock intervals ranging from 1ms to 64ms.