The МХО37 series uses internal heating resonator (IHR) technology, integrating the entire oven system and crystal plate within the TO-8 vacuum holder. This OCXO design significantly reduces volume, power consumption, and warm-up time.
The new MXO37/14P version differs from the standard MXO37/14 model through improved oscillator circuitry, resulting in better temperature stability at the same miniature size, extremely low power consumption, and low phase noise.
The МХО37 series uses internal heating resonator technology (IHR), integrating the oven system and crystal plate within a TO-8 vacuum holder. This design significantly reduces the size, power consumption, and warm-up time of the OCXO. The MXO37/14 and MXO37/14S (SMD) models are DIP14 compatible in size and pinout. These oscillators offer an exceptional combination of small size and extremely low power consumption, along with superior frequency stability and very low phase noise. Fundamental operation up to 150 MHz allows for very low spurious levels in the output spectrum, substantially reducing phase jitter. This makes the MXO37/14 oscillators an attractive solution for UHF synthesizers and other portable microwave applications.
The MX037 series uses internal heating resonator (IHR) technology, integrating the entire oven system and crystal plate within the TO-8 vacuum holder. This OCXO design significantly reduces volume, power consumption, and warm-up time. Despite its miniature size and extremely low power consumption, this oscillator exhibits excellent temperature stability, low phase noise, and an aging rate comparable to high-end OCXOs using conventional oven designs.
The МХО37 series uses internal heating resonator (IHR) technology, integrating the entire oven system and crystal plate within the TO-8 vacuum holder. This OCXO design significantly reduces volume, power consumption, and warm-up time.
The new MXO37/14P version differs from the standard MXO37/14 model through improved oscillator circuitry, resulting in better temperature stability at the same miniature size, extremely low power consumption, and low phase noise.
The МХО37 series uses internal heating resonator (IHR) technology, with the entire oven system and crystal plate housed within a TO-8 vacuum holder. This approach significantly reduces the size, power consumption, and warm-up time of the OCXO, while maintaining excellent temperature stability, low phase noise, and aging characteristics. The MXO37/14D model features a substantially reinforced IHR mechanical construction, providing exceptional mechanical durability.
Like other MXO37 series, the MX037H/14 series uses internally heated resonator technology (IHR), providing very low power consumption, miniature size, and fast warm-up. Internal frequency multiplication (by 3 or 5) extends operating frequencies up to 300 MHz and improves temperature stability and aging rate in the 30-150 MHz range compared to the MXO37 series.
Like other MXO37 series, the MX037H/14 series uses internally heated resonator technology (IHR), providing very low power consumption, miniature size, and fast warm-up. Internal frequency multiplication (by 3 or 5) extends operating frequencies up to 300 MHz and improves temperature stability and aging rate in the 30-150 MHz range compared to the MXO37 series.
The МХО37 series uses internal heating resonator (IHR) technology, with the entire oven system and crystal plate housed within a TO-8 vacuum holder. This approach significantly reduces the size, power consumption, and warm-up time of the OCXO, while maintaining excellent temperature stability, low phase noise, and aging characteristics. The MXO37H/14D model features a substantially reinforced IHR mechanical construction for exceptional durability. Internal frequency multiplication (by 3 or 5) extends the operating frequency range up to 300 MHz and improves temperature stability and aging rate in the 30-150 MHz range compared to the MXO37 series.
The crystal plate inside the TO-8 vacuum holder. This approach drastically reduces the size, power consumption, and warm-up time of the OCXO. Despite their very small size and extremely low power consumption, these oscillators exhibit excellent frequency stability and low phase noise, comparable to high-end conventional OCXO designs. The MXO37/8 and MXO37/8S (SMD) models have DIP8-compatible dimensions and pinouts and are the world's smallest high-stability OCXOs.
The crystal plate inside the TO-8 vacuum holder. This approach drastically reduces the size, power consumption, and warm-up time of the OCXO. Despite their very small size and extremely low power consumption, these oscillators exhibit excellent frequency stability and low phase noise, comparable to high-end conventional OCXO designs. The MXO37/8 and MXO37/8S (SMD) models have DIP8-compatible dimensions and pinouts and are the world's smallest high-stability OCXOs.
The crystal plate inside the TO-8 vacuum holder. This approach drastically reduces the size, power consumption, and warm-up time of the OCXO. Despite their very small size and extremely low power consumption, these oscillators exhibit excellent frequency stability and low phase noise, comparable to high-end conventional OCXO designs. The MXO37/8 and MXO37/8S (SMD) models have DIP8-compatible dimensions and pinouts and are the world's smallest high-stability OCXOs.
The crystal plate inside the TO-8 vacuum holder. This approach drastically reduces the size, power consumption, and warm-up time of the OCXO. Despite their very small size and extremely low power consumption, these oscillators exhibit excellent frequency stability and low phase noise, comparable to high-end conventional OCXO designs. The MXO37/8 and MXO37/8S (SMD) models have DIP8-compatible dimensions and pinouts and are the world's smallest high-stability OCXOs.