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EXG VECTOR SIGNAL GENERATOR
EXG VECTOR SIGNAL GENERATOR
The EXG Vector Signal Generator is a precision instrument used to generate accurate and complex RF and microwave signals. It supports various modulation types such as AM, FM, PM, and digital modulation schemes. With high signal purity and stability, it ensures reliable testing of communication and electronic systems. It is widely used in RF design, research, and wireless communication applications.
EXA SIGNAL ANALYZER N9010B
EXA SIGNAL ANALYZER N9010B
The EXA Signal Analyzer N9010B is a high performance, mid-range test instrument used primarily in RF (Radio Frequency), microwave, and millimeter-wave applications. It offers a strong balance of speed, performance, and versatility, making it suitable for R&D, manufacturing, and generalpurpose signal analysis.
FIELDFOX MICROWAVE ANALYZER
FIELDFOX MICROWAVE ANALYZER
It is much more than a single device; it integrates a Cable and Antenna Analyzer (CAT) for testing system health, a Vector Network Analyzer (VNA) for comprehensive component characterization, and a powerful Spectrum Analyzer (SA), often including Real-Time Spectrum Analysis (RTSA) capability.
GNSS MULTI-CONSTELLATION RECIEVER
GNSS MULTI-CONSTELLATION RECIEVER
The GNSS (Global Navigation Satellite System) reference receiver is primarily designed for ionospheric monitoring and space weather analysis. It accurately tracks signals from multiple satellite constellations to study ionospheric disturbances and atmospheric variations. The receiver provides high-precision positioning and timing data essential for scientific research and geophysical studies.
ATOMIC CLOCK
ATOMIC CLOCK
The AR133 Atomic Clock (often referenced by partners like Bliley) is a multi-functional, miniaturized Rubidium Frequency Standard designed to provide extremely high precision timing and frequency references for applications where stability and size are critical.
GSS700 SIGNAL GENERATOR
GSS700 SIGNAL GENERATOR
The GSS7000 Signal Simulator is a high-fidelity,
multi-frequency GNSS signal generator for the
research, development, and verification of
Positioning, Navigation, and Timing (PNT) systems,
providing controlled and repeatable real-world
conditions in the lab.
MIXED SIGNAL-OSCILLOSCOPE
MIXED SIGNAL-OSCILLOSCOPE
A Mixed‑Signal Oscilloscope (MSO) combines a high‑performance digital oscilloscope with a logic analyzer. That lets you observe analog waveforms and digital logic signals simultaneously on a single, time‑aligned timeline — ideal for debugging embedded systems, motor controllers, sensors, and communication buses.
DAQ6510 DATA AQUISTION/MULTIMETER SYSTEM
DAQ6510 DATA AQUISTION/MULTIMETER SYSTEM
The Keithley DAQ6510 is a precision data acquisition and multimeter system that integrates high-accuracy measurements with a flexible switching system.
SOLDERING STATION
SOLDERING STATION
The soldering station is a versatile tool compatible with a wide range of WT series soldering irons, tweezers, and fume extraction units. It offers precise temperature control for accurate and reliable soldering performance.
DESOLDERING STATION
DESOLDERING STATION
It is primarily used for soldering, desoldering, and hot air applications on printed circuit boards (PCBs). The station allows precise component placement, removal, and rework without damaging sensitive electronic parts.
DIGITAL MULTIMETER
DIGITAL MULTIMETER
The DT4261 Digital Multimeter measures essential
parameters including DC/AC Voltage (up to 1000 V
standard, 2000 V with optional probe), DC/AC
Current (up to 10 A), Resistance, Capacitance,
Frequency, Continuity, and Diode. It uses True RMS
technology for accurate readings on distorted
waveforms.
DIGITAL OSCILLOSCOPE
DIGITAL OSCILLOSCOPE
The TBS1000C Series is an entry-level Digital
Storage Oscilloscope (DSO) focused on core
functionality and ease of use, making it an
indispensable tool in both educational laboratories
and for basic circuit troubleshooting by hobbyists
and technicians.
EXPERIMENTAL BOARDS
EXPERIMENTAL BOARDS
PYNQ BOARDS
PYNQ BOARDS
It is a development board designed to facilitate the use of Python for programming Xilinx Zynq SoCs, leveraging the power of programmable logic alongside a dual-core ARM Cortex-A9 processor.
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