Showing results: 136 - 150 of 723 items found.
-
PD5116 -
INSTOCK Wireless Components, Inc
Wideband Frequency (698 - 2700 MHz)Low Insertion Loss (0.6 dB avg)High Port to Port Isolation (30 dB avg)Excellent VSWR (1.15 : 1 avg)50 VDC maximum on DC block portsTri Alloy SMA Female (Jack) Low PIM
-
PD5112 -
INSTOCK Wireless Components, Inc
Wideband Frequency (698 - 2700 MHz)Low Insertion Loss (0.6 dB avg)High Port to Port Isolation (30 dB avg)Excellent VSWR (1.15 : 1 avg)50 VDC maximum on DC block portsTri Alloy SMA Female (Jack) Low PIM
-
PD5162 -
INSTOCK Wireless Components, Inc
Wideband Frequency (698 - 2700 MHz)Low Insertion Loss (0.5 dB avg)High Port to Port Isolation (30 dB avg)Excellent VSWR (1.15 : 1 avg)50 VDC maximum on DC block portsTri Alloy SMA Female (Jack) Low PIM
-
PD5142 -
INSTOCK Wireless Components, Inc
Wideband Frequency (698 - 2700 MHz)Low Insertion Loss (0.4 dB avg)High Port to Port Isolation (30 dB avg)Excellent VSWR (1.10 : 1 avg)50 VDC maximum on DC block portsTri Alloy SMA Female (Jack) Low PIM
-
PD5122 -
INSTOCK Wireless Components, Inc
Wideband Frequency (698 - 2700 MHz)Low Insertion Loss (0.2 dB avg)High Port to Port Isolation (30 dB avg)Excellent VSWR (1.10 : 1 avg)50 VDC maximum on DC block portsTri Alloy SMA Female (Jack) Low PIM
-
PD5182 -
INSTOCK Wireless Components, Inc
Wideband Frequency (698 - 2700 MHz)Low Insertion Loss (0.6 dB avg)High Port to Port Isolation (30 dB avg)Excellent VSWR (1.15 : 1 avg)50 VDC maximum on DC block portsTri Alloy SMA Female (Jack) Low PIM
-
PD5132 -
INSTOCK Wireless Components, Inc
Wideband Frequency (698 - 2700 MHz)Low Insertion Loss (0.3 dB avg)High Port to Port Isolation (30 dB avg)Excellent VSWR (1.10 : 1 avg)50 VDC maximum on DC block portsTri Alloy SMA Female (Jack) Low PIM
-
Yokogawa Test & Measurement Corp.
An oscilloscope is only as good as its probes. Our range includes high voltage, differential, active, low capacitance, and passive types, with ranges to 30kV and frequency bandwidths to 5 GHz.
-
TPS™ -
Sercel Group
TPS™ (Tuned Pulsed Source) is a new marine seismic source that provides geophysical clarity by improving low frequency (content while) also supporting important environmental benefits.
-
Teledyne RF & Microwave
Teledyne Microwave Solutions (TMS) offers several Frequency Doublers providing high fundamental suppression, broadband input/output frequencies, and low conversion loss figures for a variety of communications applications.
-
6TL Engineering
Capable of performing the necessary switching between test points of the device under test, to give access to low frequency measuring instruments, in electronic test systems based on tool receivers.
-
N4000A -
Keysight Technologies
The SNS series N4000A noise source is designed for accurately measuring devices with low noise figure, with a frequency range of 10 MHz to 18 GHz and nominal ENR 6 dB.
-
FG-274 -
Texio Technology Corp.
* Output Waveforms of Sine, Square, Triangle and Pulse.* The design of DDS and FPGA technology provide high quality waveforms.* High frequency stability and accuracy: 20ppm.* Low Distortion at -55dBc.* Wide output frequency range: 4MHz* Maximum frequency resolution of full range: 100mHz.* TTL/CMOS output* Variable DC offset control* Variable Duty ratio control* Output overload protection* Store/Recall function
-
MGC-1 -
Macintyre Electronic Design Associa
The MGC-1 is a low noise high sensitivity single axis AC magnetic field sensor used for the measurement of audio frequency fields. Because of its innovative design, the MGC-1 amplitude response is insensitive to the frequency of the field over its 5 Hz to 10 kHz frequency band. Accuracy at 1 kHz is ±1%, and the amplitude response stays within 2 dB peak-to-peak over the bandwidth.
-
MGC-1A -
Macintyre Electronic Design Associa
The MGC-1A is a low noise high sensitivity single axis AC magnetic field sensor used for the measurement of audio frequency fields. Because of its innovative design, the MGC-1A amplitude response is insensitive to the frequency of the field over its 30 Hz to 10 kHz frequency band. Accuracy at 1 kHz is ±1%, and the amplitude response stays within 2 dB peak-to-peak over the bandwidth.