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CX2119A Low phase noise Crystal Oscillators
The CX2119A is a low-phase-noise, 10MHz oven-controlled crystal oscillator housed in a standard 36×27mm package. It operates stably in environments ranging from –20°C to +70°C, has an aging rate better than 5E-10/day, and offers excellent near-end and far-end phase noise performance. This product is ideal for use in low-phase-noise phase-locked loop (PLL) local oscillator circuits. When connected to an atomic clock, it significantly improves the system's short-term frequency stability and phase noise performance, while effectively suppressing and eliminating clutter interference from the atomic clock.
CX5228A High stability and low phase noise crystal oscillator
The CX5228A is a highly stable, low-phase-noise oven-controlled crystal oscillator (OCC). It utilizes a high-Q crystal resonator, offering excellent frequency stability and phase-noise performance. Operating in a temperature range of -20°C to +70°C, it features an aging rate better than 3E-10/day and a 1Hz phase noise rating of -126dBc/Hz. It is widely used in communications, navigation, radar, reconnaissance, high-end instruments, and high-end audio systems.
CX8617A High stability and double constant temperature Crystal Oscillators
The CX8617A is a dual constant temperature low phase noise crystal oscillator, with excellent phase noise performance and frequency stability, and has good environmental adaptability, and the nominal index can be obtained in the desktop environment.
CX910 Ultra-high stability and low phase noise crystal oscillator
The CX910 is a four-output, dual-temperature, highly stable crystal oscillator. It utilizes SC-cut high-precision crystals, a customized low-noise oscillation circuit, and a pure copper temperature control system. Its phase noise reaches -126dBc/Hz at 1Hz. Internal independent voltage regulation and separate temperature control effectively reduce interference. A multi-stage linear regulator reduces core power supply noise to the nanovolt level, significantly improving phase noise and short-term stability performance at 10MHz output. It is suitable for radar, electronic countermeasures, aerospace measurement and control, and standard phase noise measurement scenarios.
FT91 High-performance frequency stabilization Tester
The FT91 is a frequency comparator designed specifically for high-performance atomic clock testing. It supports arbitrary frequency measurements from 1–30 MHz, with an additional stability of up to 1.2 × 10⁻¹³ at 10 MHz. Its built-in special clock ensures accurate measurements under frequency deviation conditions. It is widely used in metrology, scientific research, crystal manufacturing, and other time- and frequency-related applications.
PLOA260 Analog phase-locked thermostat Crystal Oscillators
PLOA260 is a low noise analog phase-locked oscillator which
is based on the standard form factor design of BDSTAR TIME,
and integrates 1 high performance thermostatic crystal, 1
digital phase-locked loop and 3 isolation amplifiers, and also
can be Customized with 1 low phase noise 5MHz crossover
output, 5Hz fixed bandwidth filament, 1Hz phase noise, and
1s fixed degree following standard. While the far end noise
is determined by the local low noise crystal oscillator, the
PLOA260 can be used to optimize the output noise of the clockkeeping room phase trimmer, and is suitable for connecting
to the hydrogen clock set phase trimmer, which improves the
phase noise performance while maintaining the hydrogen
clock second stability
PLOD260 Digital phase-locked thermostat Crystal Oscillators
The PLOD260 is a high-performance phase-locked crystal oscillator (PLOD260) with three 10MHz outputs and one customizable low-phase-noise 5MHz output in a standard BDSTAR TIME form factor. It integrates a high-performance oven-controlled crystal oscillator (OCR) and a fully digital phase-locked loop (PLL). It supports a 10MHz input and has a bandwidth adjustable from 4MHz to 512MHz via RS-232. It is ideal for optimizing the phase noise and short-term stability of rubidium and cesium clocks.
PNT10-A High-precision positioning, orientation, attitude and timing equipment
The PNT10-A is a highly reliable MEMS integrated navigation and timing system. It integrates a proprietary high-precision IMU and a dual-antenna GNSS module. It employs a multi-source Kalman filter and clock control algorithm to provide continuous, high-precision navigation and timing information in complex environments. It supports NTP, PTP, TOD, 10MHz, 1PPS, and IRIG-B outputs, and features anti-interference and attack detection capabilities, making it suitable for military communications, command systems, and ship/vehicle communication networks.
PNT10 high-precision positioning, orientation and timing equipment
The PNT10 is a high-reliability positioning and timing system designed for military applications. It integrates dual GNSS antenna direction-finding and high-precision timing capabilities, supports full GNSS concurrent reception and precise discipline algorithms, and outputs highly stable time, frequency, and navigation information. The device features a 1U rack-mount design, strong anti-interference and attack detection capabilities, and stable operation in complex environments. It supports multiple time and frequency outputs, including NTP, PTP, 1PPS, and IRIG-B, and features automatic switching and alarm mechanisms for abnormalities, making it an ideal choice for military communications and command systems.
T-ASJ02 Miniaturized Anti-interference All-in-one Machine
The T-ASJ01 is a compact, all-in-one satellite navigation and anti-interference device designed for civilian drones and industrial applications. It supports BeiDou-3 B1/B3 dual-frequency reception and offers wideband B1/B3 interference suppression, achieving an anti-interference factor of 3. Integrating an antenna array, anti-interference module, and navigation receiver, it boasts compactness, lightweight design, and low cost. It is suitable for military communications, command systems, and various aircraft, ship, and vehicle-mounted communication platforms.
T-ASJ10 GNSS spoofing and jamming security device
The T-ASJ10 is a GNSS spoofing protection device with signal identification, isolation, and rapid response capabilities. Its high-gain circularly polarized antenna supports multi-system tracking, offers strong anti-interference capabilities, and a stable phase center, making it adaptable to complex electromagnetic environments. The built-in LNA provides excellent out-of-band rejection, preventing receiver lock loss. It supports redundant power supplies, features an information display, and a dual-color warning light, enhancing system security and operational efficiency. It is suitable for applications in the power, finance, communications, and transportation sectors.
T-ASJ20 GNSS Timing Safety Isolation Device
The T-ASJ20 is a timing security isolation device designed for scenarios such as GNSS interference and spoofing. It features automatic BeiDou switching, simulated signal generation, and system isolation. Its built-in local clock discipline and holdover mechanism ensures timing accuracy better than 100ns even in the presence of external anomalies. It supports anti-forwarding interference, real-time monitoring, seamless switching, and remote upgrades, with fast interference response and guaranteed time security. It is suitable for applications in the power, finance, communications, and defense sectors.